Framingham Cohort

Startup of Framingham Heart Study. Cardiovascular disease (CVD) is the leading cause of death and serious illness in the United States. In 1948, the Framingham Heart Study (FHS) -- under the direction of the National Heart Institute (now known as the National Heart, Lung, and Blood Institute, NHLBI) -- embarked on a novel and ambitious project in health research. At the time, little was known about the general causes of heart disease and stroke, but the death rates for CVD had been increasing steadily since the beginning of the century and had become an American epidemic. The objective of the FHS was to identify the common factors or characteristics that contribute to CVD by following its development over a long period of time in a large group of participants who had not yet developed overt symptoms of CVD or suffered a heart attack or stroke. Design of Framingham Heart Study. In 1948, the researchers recruited 5,209 men and women between the ages of 30 and 62 from the town of Framingham, Massachusetts, and began the first round of extensive physical examinations and lifestyle interviews that they would later analyze for common patterns related to CVD development. Since 1948, the subjects have returned to the study every two years for an examination consisting of a detailed medical history, physical examination, and laboratory tests, and in 1971, the study enrolled a second-generation cohort -- 5,124 of the original participants' adult children and their spouses -- to participate in similar examinations. The second examination of the Offspring cohort occurred eight years after the first examination, and subsequent examinations have occurred approximately every four years thereafter. In April 2002 the Study entered a new phase: the enrollment of a third generation of participants, the grandchildren of the original cohort. The first examination of the Third Generation Study was completed in July 2005 and involved 4,095 participants. Thus, the FHS has evolved into a prospective, community-based, three generation family study. The FHS is a joint project of the National Heart, Lung and Blood Institute and Boston University. Research Areas in the Framingham Heart Study. Over the years, careful monitoring of the FHS population has led to the identification of the major CVD risk factors -- high blood pressure, high blood cholesterol, smoking, obesity, diabetes, and physical inactivity -- as well as a great deal of valuable information on the effects of related factors such as blood triglyceride and HDL cholesterol levels, age, gender, and psychosocial issues. Risk factors have been identified for the major components of CVD, including coronary heart disease, stroke, intermittent claudication, and heart failure. It is also clear from research in the FHS and other studies that substantial subclinical vascular disease occurs in the blood vessels, heart and brain that precedes clinical CVD. With recent advances in technology, the FHS has enhanced its research capabilities and capitalized on its inherent resources by the conduct of high resolution imaging to detect and quantify subclinical vascular disease in the major blood vessels, heart and brain. These studies have included ultrasound studies of the heart (echocardiography) and carotid arteries, computed tomography studies of the heart and aorta, and magnetic resonance imaging studies of the brain, heart, and aorta. Although the Framingham cohort is primarily white, the importance of the major CVD risk factors identified in this group have been shown in other studies to apply almost universally among racial and ethnic groups, even though the patterns of distribution may vary from group to group. In the past half century, the Study has produced approximately 1,200 articles in leading medical journals. The concept of CVD risk factors has become an integral part of the modern medical curriculum and has led to the development of effective treatment and preventive strategies in clinical practice. In addition to research studies focused on risk factors, subclinical CVD and clinically apparent CVD, Framingham investigators have also collaborated with leading researchers from around the country and throughout the world on projects involving some of the major chronic illnesses in men and women, including dementia, osteoporosis and arthritis, nutritional deficiencies, eye diseases, hearing disorders, and chronic obstructive lung diseases. Genetic Research in the Framingham Heart Study. While pursuing the Study's established research goals, the NHLBI and the Framingham investigators has expanded its research mission into the study of genetic factors underlying CVD and other disorders. Over the past two decades, DNA has been collected from blood samples and from immortalized cell lines obtained from Original Cohort participants, members of the Offspring Cohort and the Third Generation Cohort. Several large-scale genotyping projects have been conducted in the past decade. Genome-wide linkage analysis has been conducted using genotypes of approximately 400 microsatellite markers that have been completed in over 9,300 subjects in all three generations. Analyses using microsatellite markers completed in the original cohort and offspring cohorts have resulted in over 100 publications, including many publications from the Genetics Analysis Workshop 13. Several other recent collaborative projects have completed thousands of SNP genotypes for candidate gene regions in subsets of FHS subjects with available DNA. These projects include the Cardiogenomics Program of the NHLBI's Programs for Genomics Applications, the genotyping of ~3000 SNPs in inflammation genes, and the completion of a genome-wide scan of 100,000 SNPs using the Affymetrix 100K Genechip. Framingham Cohort Phenotype Data. The phenotype database contains a vast array of phenotype information available in all three generations. These will include the quantitative measures of the major risk factors such as systolic blood pressure, total and HDL cholesterol, fasting glucose, and cigarette use, as well as anthropomorphic measures such as body mass index, biomarkers such as fibrinogen and CRP, and electrocardiography measures such as the QT interval. Many of these measures have been collected repeatedly in the original and offspring cohorts. Also included in the SHARe database will be an array of recently collected biomarkers, subclinical disease imaging measures, clinical CVD outcomes as well as an array of ancillary studies. The phenotype data is located here in the top-level study phs000007 Framingham Cohort. To view the phenotype variables collected from the Framingham Cohort, please click on the "Variables" tab above. The Framingham Cohort is utilized in the following dbGaP substudies. To view genotypes, analysis, expression data, other molecular data, and derived variables collected in these substudies, please click on the following substudies below or in the "Substudies" section of this top-level study page phs000007 Framingham Cohort. phs000342 Framingham SHARe phs000282 Framingham CARe phs000363 Framingham SABRe phs000307 Framingham Medical Resequencing phs000401 Framingham ESP Heart-GO phs000651 Framingham CHARGE-S phs000724 Framingham DNA Methylation phs001610 Framingham T2D-GENES phs002558 Framingham ADSP phs002559 Framingham BRIDGET phs002560 Framingham Cholesterol phs002611 Framingham Post-Mortem Brain Tissue phs002938 Framingham Molecular QTL The unflagging commitment of the research participants in the NHLBI FHS has made more than a half century of research success possible. For decades, the FHS has made its data and DNA widely available to qualified investigators throughout the world through the Limited Access Datasets and the FHS DNA Committee, and the SHARe database will continue that tradition by allowing access to qualified investigators who agree to the requirements of data access. With the SHARe database, we continue with an ambitious research agenda and look forward to new discoveries in the decades to come.]]> Clinic Exam, Original Cohort, Exam 1: Annotated FormClinic Exam, Original Cohort, Exam 10: Annotated FormClinic Exam, Original Cohort, Exam 11: Annotated FormClinic Exam, Original Cohort, Exam 12: Annotated FormClinic Exam, Original Cohort, Exam 13: Annotated FormClinic Exam, Original Cohort, Exam 14: Annotated FormClinic Exam, Original Cohort, Exam 15: Annotated FormClinic Exam, Original Cohort, Exam 16: Annotated FormClinic Exam, Original Cohort, Exam 17: Annotated FormClinic Exam, Original Cohort, Exam 18: Annotated FormClinic Exam, Original Cohort, Exam 19: Annotated FormClinic Exam, Original Cohort, Exam 2: Annotated FormClinic Exam, Original Cohort, Exam 20: Annotated FormClinic Exam, Original Cohort, Exam 21: Annotated FormClinic Exam, Original Cohort, Exam 22: Annotated FormClinic Exam, Original Cohort, Exam 23: Annotated FormClinic Exam, Original Cohort, Exam 24: Annotated FormClinic Exam, Original Cohort, Exam 25: Annotated FormClinic Exam, Original Cohort, Exam 26: Annotated FormClinic Exam, Original Cohort, Exam 27: Annotated FormClinic Exam, Original Cohort, Exam 3: Annotated FormClinic Exam, Original Cohort, Exam 4: Annotated FormClinic Exam, Original Cohort, Exam 5: Annotated FormClinic Exam, Original Cohort, Exam 6: Annotated FormClinic Exam, Original Cohort, Exam 7: Annotated FormClinic Exam, Original Cohort, Exam 8: Annotated FormClinic Exam, Original Cohort, Exam 9: Annotated FormClinic Exam, Original Cohort, Exams 23 & 24: ProtocolClinic Exam, Original Cohort, Exam 25: Protocol (In Clinic)Clinic Exam, Original Cohort, Exam 25: Protocol (Offsite)Clinic Exam, Offspring Cohort Exam 1: Annotated FormClinic Exam, Offspring Cohort, Exam 2: Annotated FormClinic Exam, Offspring Cohort, Exam 3: Annotated FormClinic Exam, Offspring Cohort, Exam 4: Annotated FormClinic Exam, Offspring Cohort, Exam 5: Annotated FormClinic Exam, Offspring Cohort, Exam 6: Annotated FormClinic Exam, Offspring Cohort, Exam 7: Annotated FormClinic Exam, Offspring Cohort, Exam 5: ProtocolClinic Exam, Offspring Cohort, Exam 6: ProtocolHearing Test 1, Offspring Cohort Exam 6: Annotated FormHearing Test Questionnaire, Offspring Cohort Exam 6: Annotated FormHearing Questionnaire, Original Cohort Exam 22: Annotated FormClinic Exam, Generation 3 Cohort, Exam 1: ProtocolClinic Exam, Generation 3 Cohort, Exam 1: Annotated FormPsychosocial Study, Offspring Cohort Exam 3: Annotated FormAnkle Arm Blood Pressure Measurements, Original Cohort Exam 23: ProtocolAnkle Arm Blood Pressure Measurements, Offspring Cohort Exam 6: ProtocolAnkle Arm Blood Pressure Measurements, Offspring Cohort Exam 7: ProtocolCardiac CT Scans, Offspring Cohort Exam 7: ProtocolCardiac CT Scans, Generation 3 Cohort Exam 1: ProtocolCT Coronary Artery and Aorta Calcium Scores, Offspring Cohort Exams 6, 7: Annotated Form ECG, Original Cohort Exams 16 - 18, Offspring Cohort Exam 2: Annotated FormPulmonary Function Test, Offspring Cohort Exam 5: ProtocolPulmonary Function Test, Offspring Cohort Exam 6: ProtocolPulmonary Function Test, Offspring Cohort Exam 7: ProtocolPulmonary Function Test, Generation 3 Cohort Exam 1: ProtocolPhysical Activity Questionnaire, Offspring Cohort Exam 5: Annotated FormPhysical Activity Questionnaire, Offspring Cohort Exam 6: Annotated FormAnkle Arm Blood Pressure Measurements, Offspring Cohort Exam 6: Annotated FormAnkle Arm Blood Pressure Measurements, Offspring Cohort Exam 7: Annotated FormAnkle Arm Blood Pressure Measurements, Original Cohort Exam 23: Annotated FormBirth History Questionnaire, Offspring Cohort Exam 6: Annotated FormClinic Exam, Original Cohort, Exam 26: Protocol (In Clinic)Clinic Exam, Original Cohort, Exam 26: Protocol (Offsite)Clinic Exam, Original Cohort, Exam 27: Protocol (In Clinic)Clinic Exam, Original Cohort, Exam 27: Protocol (Offsite)Echocardiography, Offspring Exam 6, Omni 1 Exam 1: Annotated FormInitial PSIP, Original and Offspring Cohorts thru 2003: ProtocolRecurrent PSIP, Original and Offspring Cohorts thru 2003: ProtocolRespiratory Questionnaire, Offspring Cohort Exams 5, 6: Annotated FormHealth Questionnaire SF-36, Offspring Cohort Exam 6: Annotated FormFramingham Heart Study Inflammatory Markers Manual, Offspring Cohort Exam 7, Omni Gen 1 Cohort Exam 2Framingham SNP Health Association Resource (SHARe) Project Staff Data Access AgreementParticipant Protection Policy FAQAbdominal Fat CT Study, Original Cohort Exam 7: Coding ManualAbdominal Fat CT Study, Generation 3 Cohort Exam 1: Coding ManualPhysical Activity Questionnaire, Offspring Cohort Exam 5: Coding ManualPhysical Activity Questionnaire, Offspring Cohort Exam 6: Coding ManualAnkle Arm Blood Pressure Measurements, Original Cohort Exam 23:Coding ManualAnkle Arm Blood Pressure Measurements, Offspring Cohort Exam 6: Coding ManualAnkle Arm Blood Pressure Measurements, Offspring Cohort Exam 7: Coding ManualBirth History Questionnaire, Offspring Cohort Exam 6: Coding ManualCarotid, Offspring Cohort Exam 6: Coding ManualCreatinine & Cystatin C, Offspring Cohort Exam 7: Coding ManualC-Reactive Protein, Offspring Cohort Exam 2: Coding ManualC-Reactive Protein, Offspring Cohort Exam 6: Coding Manual Cardiac CT Scans, Offspring Cohort Exam 7: Coding ManualCardiac CT Scans, Generation 3 Cohort Exam 1: Coding ManualDiabetes (derived), Offspring Exams 1-10, Omni 1 Exams 1-5: Coding ManualPerceived Disability Study, Original Cohort Exam 18: Coding ManualCT Coronary Artery and Aorta Calcium Scores, Offspring Cohort Exams 6, 7: Coding ManualECG, Original Cohort Exams 16 - 18, Offspring Cohort Exam 2: Coding ManualEchocardiography, Offspring Exam 6, Omni 1 Exam 1: Coding ManualE Isoform, Offspring Cohort Exams 3, 4: Coding Manual Clinic Exam, Original Cohort, Exam 10: Coding Manual Clinic Exam, Original Cohort, Exam 11: Coding Manual Clinic Exam, Original Cohort, Exam 12: Coding Manual Clinic Exam, Original Cohort, Exam 13: Coding Manual Clinic Exam, Original Cohort, Exam 14: Coding Manual Clinic Exam, Original Cohort, Exam 15: Coding Manual Clinic Exam, Original Cohort, Exam 16: Coding Manual Clinic Exam, Original Cohort, Exam 17: Coding ManualClinic Exam, Original Cohort, Exam 18: Coding Manual Clinic Exam, Original Cohort, Exam 19: Coding Manual Clinic Exam, Original Cohort, Exam 20: Coding Manual Clinic Exam, Original Cohort, Exam 21: Coding Manual Clinic Exam, Original Cohort, Exam 22: Coding Manual Clinic Exam, Original Cohort, Exam 23: Coding ManualClinic Exam, Original Cohort, Exam 24: Coding Manual Clinic Exam, Original Cohort, Exam 25: Coding Manual Clinic Exam, Original Cohort, Exam 26: Coding Manual Clinic Exam, Original Cohort, Exam 27: Coding Manual Clinic Exam, Original Cohort Exams 1 - 7: Coding ManualClinic Exam, Original Cohort, Exam 8: Coding Manual Clinic Exam, Original Cohort, Exam 9: Coding Manual Clinic Exam, Offspring Cohort Exam 1: Coding ManualClinic Exam, Offspring Cohort Exam 2: Coding ManualClinic Exam, Offspring Cohort, Exam 3: Coding Manual Clinic Exam, Offspring Cohort, Exam 4: Coding Manual Clinic Exam, Offspring Cohort, Exam 5: Coding Manual Clinic Exam, Offspring Cohort, Exam 6: Coding Manual Clinic Exam, Offspring Cohort, Exam 7: Coding ManualClinic Exam, Generation 3 Cohort, Exam 1: Coding Manual Fibrinogen, Original Cohort Exams 20, 21: Coding ManualFibrinogen, Offspring Cohort Exam 5: Coding ManualFibrinogen, Offspring Cohort Exam 6: Coding ManualHBA1C, Original Cohort Exams 19 - 23: Coding ManualHearing Test 1, Offspring Cohort Exam 6: Coding ManualHearing Test, Original Cohort Exam 22: Coding ManualHearing Test Questionnaire, Offspring Cohort Exam 6: Coding ManualHearing Questionnaire, Original Cohort Exam 22: Coding ManualCysteine, Homocysteine, Cysteinylglycine, Offspring Cohort Exam 2: Coding ManualGenetics of Bone Structural Geometry, Original Cohort Exams 22, 24: Coding ManualICD Codes for Death Certificates, Original Cohort Exams 2 - 19: Coding ManualLipoprotein A, Offspring Cohort Exam 3: Coding ManualMetacarpal, Original Cohort Exams 10, 11, Offspring Cohort Exams 4, 5, 6: Coding ManualMenopause, Original Cohort, Exams 1 - 14: Coding ManualPAI-1 Lab Results, Generation 3 Cohort Exam 1: Coding ManualPulmonary Function Test, Original Cohort Exam 19: Coding Manual Pulmonary Function Test, Offspring Cohort Exam 3: Coding ManualPulmonary Function Test, Offspring Cohort Exam 5: Coding ManualPulmonary Function Test, Offspring Cohort Exam 6: Coding ManualPulmonary Function Test, Offspring Cohort Exam 7: Coding ManualPulmonary Function Test, Generation 3 Cohort Exam 1: Coding ManualInitial PSIP, Original and Offspring Cohorts thru 2003: Coding ManualRecurrent PSIP, Original and Offspring Cohorts thru 2003: Coding ManualPsychosocial Study, Offspring Cohort Exam 3: Coding ManualRespiratory Questionnaire, Offspring Cohort Exams 5, 6: Coding ManualRheumatic Heart Disease, Original Cohort Exams 1 - 9: Coding ManualThyroid and Sex Hormones, Offspring Cohort Exam 3: Coding ManualHealth Questionnaire SF-36, Offspring Cohort Exam 6: Coding ManualVitamin D, Offspring Cohort Exam 7: Coding ManualAbdominal Fat CT Study, Original Cohort Exam 7: Annotated FormAbdominal Fat CT Study, Generation 3 Cohort Exam 1: Annotated FormAldosterone - Lab Assay (Blood), Offspring Exam 6, Omni 1 Exam 1: Coding ManualAldosterone - Lab Assay (Blood), Offspring Exam 6, Omni 1 Exam 1: ProtocolLumbar Aortic Calcification, Original Cohort Exams 9 - 11, 21 - 23: Coding ManualVascular Brachial Test, Offspring Cohort Exam 7: Coding ManualVascular Brachial Test, Offspring Cohort Exam 7: Annotated FormVascular Brachial Test, Offspring Cohort Exam 7: ProtocolVascular Brachial Test, Generation 3 Cohort Exam 1: Coding ManualVascular Brachial Test, Generation 3 Cohort Exam 1: Annotated FormVascular Brachial Test, Generation 3 Cohort Exam 1: ProtocolCardiac MRI Left Ventricular Hypertrophy, Offspring, Omni 1 Cohorts 2002-2006: Coding Manual Creatinine & Cystatin C, Offspring Cohort Exam 7: ProtocolC-Reactive Protein, Offspring Cohort Exam 2: ProtocolC-Reactive Protein, Offspring Cohort Exam 6: ProtocolPerceived Disability Study, Original Cohort Exam 18: Annotated FormDigital ECG, Original Cohort Exam 11, Offspring Cohort Exam 1, Generation 3 Cohort Exam 1: Coding ManualEchocardiography, Offspring Cohort Exam 4: Coding ManualEchocardiography, Offspring Cohort Exam 4: Annotated FormEchocardiography, Offspring Cohort Exam 4: ProtocolEchocardiography, Offspring Cohort Exam 5: Coding ManualEchocardiography, Offspring Cohort Exam 5: Annotated FormEchocardiography, Offspring Cohort Exam 5: ProtocolFibrinogen, Original Cohort Exams 20, 21: ProtocolHemostatic Factors, Offspring Cohort Exam 5: Coding ManualHemostatic Factors, Offspring Cohort Exam 5: ProtocolHomocysteine, Original Cohort Exam 16: Coding ManualHeart Rate Variability, Offspring Cohort 1983 - 1987: Coding ManualIGF-1, IGF BP4, IGF BP5 and Parathyroid Hormone, Offspring Cohort Exam 6: Coding ManualIGF-1, IGF BP4, IGF BP5 and Parathyroid Hormone, Offspring Cohort Exam 6: ProtocolKnee Osteoarthritis, Original Cohort Exam 18: Coding ManualKnee Osteoarthritis, Original Cohort Exam 18: Annotated FormKnee Osteoarthritis, Original Cohort Exam 18: ProtocolLab Data - Additional Exam 5 Lab, Offspring Cohort Exam 5: Coding ManualLab Data - Additional Exam 6 Lab, Offspring Cohort Exam 6: Coding ManualLab Data - Additional Exam 6 Lab, Offspring Cohort Exam 6: ProtocolLab Data - Additional Exam 7 Lab, Offspring Cohort Exam 7: Coding ManualLab Data - Additional Exam 7 Lab, Offspring Cohort Exam 7: ProtocolLipid Traits (fractions, particles, size, etc), Offspring Cohort Exams 4, 5: Coding ManualLipid Traits (fractions, particles, size, etc), Offspring Cohort Exams 4, 5: ProtocolLab Manual: MGH Diabetes Lab/MGH GCRC Core LabPhysical Function: Hand Grip, Measured Walks, Chair Stands, Original, Offspring, Omni 1 Cohorts through 2005: Coding ManualPhysical Function: Hand Grip, Measured Walks, Chair Stands, Original, Offspring, Omni 1 Cohorts through 2005: Annotated FormPAI-1 Lab Results, Generation 3 Cohort Exam 1: AssayPAI-1 Lab Results, Generation 3 Cohort Exam 1: ProtocolThyroid and Sex Hormones, Offspring Cohort Exam 4: Coding Manual Terminal Restriction Fragment Length, Offspring Cohort Exam 6: Coding ManualTerminal Restriction Fragment Length, Offspring Cohort Exam 6: ProtocolLarge Artery Tonometry, Original Cohort Exam 26: Coding Manual Large Artery Tonometry, Original Cohort Exam 26: Protocol 1 Large Artery Tonometry, Offspring Exam 7, Omni 1 Exam 2: Coding Manual Large Artery Tonometry, Offspring Exam 7, Omni 1 Exam 2: Protocol 1 Large Artery Tonometry, Generation 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: Coding ManualLarge Artery Tonometry, Generation 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: Protocol 1Urinary Creatinine and Urine Albumin, Generation 3 Cohort Exam 1: Coding ManualVitamin D, Offspring Cohort Exam 7: ProtocolRenin, Offspring Cohort Exam 6: Coding ManualCABG and Heart Valve Procedure Chart Review, Original, Offspring, Omni 1 Cohorts through 10/07: Annotated Form CABG and Heart Valve Procedure Chart Review, Original, Offspring, Omni 1 Cohorts through 10/07: Coding Manual CABG and Heart Valve Procedure Chart Review, Original, Offspring, Omni 1 Cohorts through 10/07: Protocol Cardiac MRI Abdominal Fat, Offspring, Omni 1 Cohorts 2002-2006: Coding Manual Cardiac MRI Abdominal Fat, Offspring, Omni 1 Cohorts 2002-2006: Protocol Cardiac MRI Epicardial Fat, Offspring, Omni 1 Cohorts 2002-2006: Coding Manual Cardiac MRI Left Ventricular Hypertrophy, Offspring, Omni 1 Cohorts 2002-2006: Annotated Form Cardiac MRI Plaque Data, Offspring, Omni 1 Cohorts 2002-2005: Coding ManualCardiac MRI Wall Motion Abnormality, Offspring, Omni 1 Cohorts 2002-2006: Coding Manual Cardiovascular Procedures Validated by Medical Records, All Cohorts through 2022: Annotated FormCardiovascular Procedures Validated by Medical Records, All Cohorts through 2022: Coding Manual Cardiovascular Procedures Validated by Medical Records, All Cohorts through 2022: ProtocolDiffusion Capacity Testing, Generation 3 Cohort Exam 1: Coding ManualDiffusion Capacity Testing, Generation 3 Cohort Exam 1: ProtocolEchocardiography, Original Cohort Exam 20: Annotated FormEchocardiography, Original Cohort Exam 20: Coding ManualEye Examination, Original Cohort 1973 - 1975: Coding ManualEye Examination, Original Cohort 1973 - 1975: Coding ManualEye Examination, Original Cohort 1973 - 1975: ProtocolEye Examination, Original Cohort 1986 - 1989: Annotated FormEye Examination, Original Cohort 1986 - 1989: Coding ManualEye Examination, Original Cohort 1986 - 1989: ProtocolEye Examination and Retinal Photo Gradings for the Framingham Offspring Eye Study, Offspring 1989-1991: Annotated Form 2Eye Examination and Retinal Photo Gradings for the Framingham Offspring Eye Study, Offspring 1989-1991: Coding ManualEye Examination and Retinal Photo Gradings for the Framingham Offspring Eye Study, Offspring 1989-1991: ProtocolKnee Osteoarthritis X-ray, Original Cohort Exam 18: Coding ManualKnee Osteoarthritis X-ray, Original Cohort Exam 18: ProtocolKnee Osteoarthritis X-ray, Offspring Cohort Exam 5: Coding ManualFatty Liver CT, Offspring Cohort 2002 - 2005: Annotated FormFatty Liver CT, Offspring Cohort 2002 - 2005: Coding ManualFatty Liver CT, Offspring Cohort 2002 - 2005: ProtocolFatty Liver CT, Generation 3 Cohort 2002 - 2005: Annotated FormFatty Liver CT, Generation 3 Cohort 2002 - 2005: Coding ManualNatriuretic Peptides, Offspring Cohort Exam 6: Coding ManualNatriuretic Peptides, Offspring Cohort Exam 6: ProtocolOsseographic Scoring System, Original and Offspring Cohorts thru 1995: Coding ManualOsseographic Scoring System, Original and Offspring Cohorts thru 1995: ProtocolSHARe ID Consent GroupsWalk Test, Offspring Cohort Exam 7: Annotated FormWalk Test, Offspring Cohort Exam 7: Coding ManualWalk Test, Offspring Cohort Exam 7: ProtocolSleep Heart Health Study Baseline, Offspring and Omni 1 Cohorts 1995-1998: Annotated FormSleep Heart Health Study Baseline, Offspring and Omni 1 Cohorts 1995-1998: Coding ManualSleep Heart Health Study Baseline, Offspring and Omni 1 Cohorts 1995-1998: ProtocolSleep Heart Health Study - Follow up 1, Offspring and Omni 1 Cohorts 1998-1999: Annotated FormSleep Heart Health Study - Follow up 1, Offspring and Omni 1 Cohorts 1998-1999: Coding ManualSleep Heart Health Study - Follow up 1, Offspring and Omni 1 Cohorts 1998-1999: ProtocolSleep Heart Health Study - Follow up 2, Offspring and Omni 1 Cohorts 1995-2003: Annotated FormSleep Heart Health Study - Follow up 2, Offspring and Omni 1 Cohorts 1995-2003: Coding ManualSleep Heart Health Study - Follow up 2, Offspring and Omni 1 Cohorts 1995-2003: ProtocolCardiac MRI Epicardial Fat, Offspring, Omni 1 Cohorts 2002-2006: Protocol Cardiac MRI Plaque Data, Offspring, Omni 1 Cohorts 2002-2005: Protocol 1Cardiac MRI Wall Motion Abnormality, Offspring, Omni 1 Cohorts 2002-2006: Protocol Knee Osteoarthritis X-ray, Offspring Cohort Exam 5: ProtocolFatty Liver CT, Generation 3 Cohort 2002 - 2005: ProtocolDescription of Pedigree FileDescription of Participant FileClinic Exam, Offspring Cohort Exam 7: ProtocolInstructions to request authorized access to NHLBI project datasetsAortic Mitral Valves, Offspring Cohort, Exam 7: Annotated FormAortic Mitral Valves, Offspring Cohort, Exam 7: Coding ManualAortic Mitral Valves, Offspring Cohort, Exam 7: ProtocolFood Frequency, Original Cohort, Exam 20: Annotated FormFood Frequency, Original Cohort, Exam 20: Coding ManualFood Frequency, Original Cohort, Exam 20: ProtocolFood Frequency, Original Cohort, Exam 21: Annotated FormFood Frequency, Original Cohort, Exam 21: Coding ManualFood Frequency, Original Cohort, Exam 21: ProtocolFood Frequency, Original Cohort, Exam 22: Annotated FormFood Frequency, Original Cohort, Exam 22: Coding ManualFood Frequency, Original Cohort, Exam 22: ProtocolNutrition Studies, Offspring Cohort, Exam 3: Annotated FormNutrition Studies, Offspring Cohort, Exam 3: Coding ManualNutrition Studies, Offspring Cohort, Exam 3: ProtocolFood Frequency, Offspring Cohort, Exam 5: Annotated FormFood Frequency, Offspring Cohort, Exam 5: Coding ManualFood Frequency, Offspring Cohort, Exam 5: ProtocolFood Frequency, Offspring Cohort, Exam 6: Annotated FormFood Frequency, Offspring Cohort, Exam 6: Coding ManualFood Frequency, Offspring Cohort, Exam 6: ProtocolFood Frequency, Offspring Cohort, Exam 7: Annotated FormFood Frequency, Offspring Cohort, Exam 7: Coding ManualFood Frequency, Offspring Cohort, Exam 7: ProtocolATC Coded Medications, Generation 3 Cohort, Exam 1: Annotated FormATC Coded Medications, Generation 3 Cohort, Exam 1: Coding ManualUrine Cross Linked N-Telopeptide, Offspring Cohort Exam 7: Coding ManualOsteocalcin, Offspring Cohort, Exam 7: Coding ManualSerum RANKL (Blood Lab Assay), Offspring Exam 7, Omni 1 Exam 2: Coding Manual Vitamin K, Offspring Cohort, Exam 7: Coding ManualClinic Exam, Original Cohort, Exam 28: Annotated FormClinic Exam, Original Cohort, Exam 28: Coding ManualClinic Exam, Original Cohort, Exam 28: ProtocolFibrinogen, Offspring Cohort, Exam 7: Coding ManualFibrinogen, Offspring Cohort, Exam 7: ProtocolGenetic Bone Structural Geometry, Offspring Cohort, Exam 7: Coding ManualInsulin and Proinsulin, Generation 3 Cohort, Exam 1: Coding ManualInsulin and Proinsulin, Generation 3 Cohort, Exam 1: ProtocolVitamin D, Generation 3 Cohort, Exam 1: Coding ManualOsteoporosis Study Whole Body DXA, Original Cohort, Exam 24: Coding ManualOsteoporosis Study Whole Body DXA, Original Cohort Exams 24: ProtocolOsteoporosis Study Whole Body DXA, Offspring Cohort, Exam 7: Coding ManualOsteoporosis Study Whole Body DXA, Offspring Cohort, Exam 7: ProtocolEndothelial Progenitor Cell Lab Assay, Offspring Cohort Exam 8 and Omni 1 Cohort Exam 3: Annotated FormEndothelial Progenitor Cell Lab Assay, Offspring Cohort Exam 8 and Omni 1 Cohort Exam 3: Coding ManualEndothelial Progenitor Cell Lab Assay, Offspring Cohort Exam 8 and Omni 1 Cohort Exam 3: ProtocolMenarche Data, Offspring Cohort, Exam 7: Annotated FormMenarche Data, Offspring Cohort, Exam 7: Coding ManualMenopause, Hormone Replacement and Ovary Removal, Generation 3 Cohort through Exam 2: Annotated FormMenopause, Hormone Replacement and Ovary Removal, Generation 3 Cohort through Exam 2: Coding ManualMenopause, Hormone Replacement and Ovary Removal, Generation 3 Cohort through Exam 2: ProtocolPeripheral Arterial Tonometry (Fingertip), Original Exam 28, Gen 3 Exam 1, NOS Exam 1, Omni 2 Exam 1: Coding Manual Peripheral Arterial Tonometry (Fingertip), Original Exam 28, Gen 3 Exam 1, NOS Exam 1, Omni 2 Exam 1: Protocol Platelet Aggregation, Offspring Cohort, Exam 5: Annotated FormPlatelet Aggregation, Offspring Cohort, Exam 5: Coding ManualPlatelet Aggregation, Offspring Cohort, Exam 5: ProtocolAnkle Arm Blood Pressure Measurements, Offspring Cohort, Exam 8: Annotated FormAnkle Arm Blood Pressure Measurements, Offspring Cohort Exam 8: Coding ManualAnkle Arm Blood Pressure Measurements, Offspring Cohort, Exam 8: ProtocolBirth Year of Study Participants in Five Year Intervals, All Cohorts: Coding ManualBirth Year of Study Participants in Five Year Intervals, All Cohorts: ProtocolBrain MRI Qualitative Data Original and Offspring Cohorts, thru 2005: Coding ManualBrain MRI Qualitative Data Original and Offspring Cohorts, thru 2005: ProtocolClinic Exam, Offspring Cohort, Exam 8: Annotated Form Clinic Exam, Offspring Cohort, Exam 8: Coding ManualClinic Exam, Offspring Cohort, Exam 8: ProtocolFHS Clinic Lab Assays Processed on Site, Offspring Cohort Exam 8: Coding ManualFHS Clinic Lab Assays Processed on Site, Offspring Cohort Exam 8: ProtocolNon-hip and Non-spine Bone Fractures, Original Cohort through Feb 2011: Annotated FormNon-hip and Non-spine Bone Fractures, Original Cohort through Feb 2011: Coding ManualNon-hip and Non-spine Bone Fractures, Original Cohort through Feb 2011: ProtocolCognitive Function Test - Mini Mental State Exam (MMSE), Original Cohort Exams 17-32: Coding ManualCognitive Function Test Mini Mental State Exam (MMSE), Offspring Exams 5-10, Omni 1 Exams 1-5: Coding ManualPeripheral Arterial Tone (PAT), Offspring Exam 8, Omni 1 Exam 3: Annotated Form Peripheral Arterial Tone (PAT), Offspring Exam 8, Omni 1 Exam 3: Coding Manual Peripheral Arterial Tone (PAT), Offspring Exam 8, Omni 1 Exam 3: Protocol SOE Pulmonary Embolus & Deep Venous Thrombosis, All Cohorts 1994-2012: Annotated FormSOE Pulmonary Embolus & Deep Venous Thrombosis, All Cohorts 1994-2012: Coding ManualSOE Pulmonary Embolus & Deep Venous Thrombosis, All Cohorts 1994-2012: ProtocolECG Data from Sleep Heart Health Study (SHHS), Offspring and Omni 1 Cohorts 11/1995-06/2003: Annotated FormECG Data from Sleep Heart Health Study (SHHS), Offspring and Omni 1 Cohorts 11/1995-06/2003: Coding ManualECG Data from Sleep Heart Health Study (SHHS), Offspring and Omni 1 Cohorts 11/1995-06/2003: ProtocolADMA/SDMA/L-arginine Lab Data, Offspring Cohort Exam 6: Coding ManualADMA/SDMA/L-arginine Lab Data, Offspring Cohort Exam 6: ProtocolAtrial Fibrillation/Flutter Cases Reviewed Through 2022 (includes related sinus rhythm cases), All Cohorts through 2022: Annotated Form InitialAtrial Fibrillation/Flutter Cases Reviewed Through 2022 (includes related sinus rhythm cases), All Cohorts through 2022: Coding ManualAtrial Fibrillation/Flutter Cases Reviewed Through 2022 (includes related sinus rhythm cases), All Cohorts through 2022: ProtocolAngiopoietin-2 (ANG2) and TIE2 (TIE2) - Lab Assay (blood), Gen 3 Exam 1, Omni 2 Exam 1: Coding ManualAngiopoietin-2 (ANG2) and TIE2 (TIE2) - Lab Assay (blood), Gen 3 Exam 1, Omni 2 Exam 1: ProtocolBone Mineral Density Test, Offspring Cohort, 9/1996 through 10/2001: Coding ManualBone Mineral Density Test, Offspring Cohort, 9/1996 through 10/2001: ProtocolN-terminal Pro-B-type Natriuretic Peptide, Generation 3 Cohort Exam 1: Coding ManualN-terminal Pro-B-type Natriuretic Peptide, Generation 3 Cohort Exam 1: ProtocolDoppler Echo Data, Original Cohort Exam 20: Coding ManualDoppler Echo Data, Original Cohort Exam 20: ProtocolWidespread and Regional Pain Data, Original and Offspring Cohorts thru 2001: Annotated FormWidespread and Regional Pain Data, Original and Offspring Cohorts thru 2001: ProtocolWidespread and Regional Pain Data, Original and Offspring Cohorts thru 2001: Coding ManualHepatocyte Growth Factor, Generation 3 Cohort Exam 1: Coding ManualHepatocyte Growth Factor, Generation 3 Cohort Exam 1: ProtocolATC Coding for Medication Data, Original Cohort Exam 28: Annotated FormATC Coding for Medication Data, Original Cohort Exam 28: Coding Manual SupplementATC Coding for Medication Data, Original Cohort Exam 28: Coding ManualATC Coding for Medication Data, Original Cohort Exam 28: ProtocolATC Coding for Medication Data, Offspring Cohort, Exam 8: Annotated FormATC Coding for Medication Data, Offspring Cohort, Exam 8: Coding ManualATC Coding for Medication Data, Offspring Cohort, Exam 8: Coding Manual SupplementATC Coding for Medication Data, Offspring Cohort, Exam 8: ProtocolATC Coded Medications, Generation 3 Cohort, Exam 1: Coding Manual SupplementATC Coded Medications, Generation 3 Cohort, Exam 1: ProtocolPulmonary Function Test, Offspring Cohort Exam 8: Coding ManualPulmonary Function Test, Offspring Cohort Exam 8: ProtocolVascular Endothelial Growth Factor Receptor, Generation 3 Cohort Exam 1: Coding ManualVascular Endothelial Growth Factor Receptor, Generation 3 Cohort Exam 1: ProtocolVascular Endothelial Growth Factor, Generation 3 Cohort Exam 1: Coding ManualVascular Endothelial Growth Factor, Generation 3 Cohort Exam 1: ProtocolMultidetector Computed Tomography Study of Diameters of the Thoracic Aorta, Abdominal Aorta and Pulmonary Artery, Offspring Cohort through 2005: Annotated FormMultidetector Computed Tomography Study of Diameters of the Thoracic Aorta, Abdominal Aorta and Pulmonary Artery, Offspring Cohort through 2005: Coding ManualMultidetector Computed Tomography Study of Diameters of the Thoracic Aorta, Abdominal Aorta and Pulmonary Artery, Offspring Cohort through 2005: ProtocolMultidetector Computed Tomography Study of Diameters of the Thoracic Aorta, Abdominal Aorta and Pulmonary Artery, Generation 3 Cohort through 2005: Annotated FormMultidetector Computed Tomography Study of Diameters of the Thoracic Aorta, Abdominal Aorta and Pulmonary Artery, Generation 3 Cohort through 2005: Coding ManualMultidetector Computed Tomography Study of Diameters of the Thoracic Aorta, Abdominal Aorta and Pulmonary Artery, Generation 3 Cohort through 2005: ProtocolPericardial Fat, Offspring Cohort, through 2005: Annotated FormPericardial Fat, Offspring Cohort, through 2005: Coding ManualPericardial Fat, Offspring Cohort, through 2005: ProtocolPericardial Fat, Generation 3 Cohort, through 2005: Annotated FormPericardial Fat, Generation 3 Cohort, through 2005: Coding ManualPericardial Fat, Generation 3 Cohort, through 2005: ProtocolDigital ECG, Original Cohort Exam 11, Offspring Cohort Exam 1, Generation 3 Cohort Exam 1: ProtocolPulmonary Function (PFT) Diffusion, Offspring Cohort Exam 8: Coding ManualPulmonary Function (PFT) Diffusion, Offspring Cohort Exam 8: ProtocolQuadriceps Strength Data Set, Offspring Cohort, Exams 6 and 7: Annotated FormQuadriceps Strength Data Set, Offspring Cohort, Exams 6 and 7: Coding ManualQuadriceps Strength Data Set, Offspring Cohort, Exams 6 and 7: ProtocolRenin, Offspring Cohort Exam 6: ProtocolSequence of Events (SOE) Cardiovascular Endpoints (Includes Death), All Cohorts through 2022: Coding Manual Menopause, Offspring Cohort through Exam 8: ProtocolMenopause, Offspring Cohort through Exam 8: Coding ManualMenopause, Offspring Cohort through Exam 8: Annotated FormIMTCarotid, Offspring Cohort, Exam 6: Coding ManualCardiac MRI Left Ventricular Hypertrophy, Offspring, Omni 1 Cohorts 2002-2006: Protocol Framingham SHARe Osteoporosis Study - Bone Mineral Density through 2009: Coding ManualFramingham SHARe Osteoporosis Study - Bone Mineral Density through 2009: ProtocolCancer Validated by Medical Records, Original, NOS, Omni 1, Omni 2 thru 9/13, Offspring, Gen 3 thru 2/19: Annotated FormCancer Validated by Medical Records, Original, NOS, Omni 1, Omni 2 thru 9/13, Offspring, Gen 3 thru 2/19: Coding ManualCancer Validated by Medical Records, Original, NOS, Omni 1, Omni 2 thru 9/13, Offspring, Gen 3 thru 2/19: ProtocolSerum and Urinary Cortisol and Creatinine (Lab assay: blood and urine), Offspring Exams 5-6, Omni 1 Exam 1: Coding ManualSerum and Urinary Cortisol and Creatinine (Lab assay: blood and urine), Offspring Exams 5-6, Omni 1 Exam 1: ProtocolDiabetes (derived), Original Cohort Exam 1 - Exam 28: Coding ManualDiabetes (derived), Original Cohort Exam 1 - Exam 28: ProtocolLab Data - Original Cohort Exam 20: Coding ManualTestosterone and Serum Sex Hormone Binding Globulin, Offspring Exam 7, Gen 3 Exam 1, Omni 2 Exam 1: Coding ManualTestosterone and Serum Sex Hormone Binding Globulin, Offspring Exam 7, Gen 3 Exam 1, Omni 2 Exam 1: ProtocolFractures Cases Validated by Medical Records and Other Sources, Offspring, NOS, Omni 1 through 2018: Coding ManualFractures Cases Validated by Medical Records and Other Sources, Offspring, NOS, Omni 1 through 2018: Protocol Renin and Aldosterone, Generation 3 Exam 1: Coding ManualRenin and Aldosterone, Generation 3 Exam 1: ProtocolBone Mineral Density Hip and Spine, Generation 3 Exam 2, May 2008 - November 2009: Coding ManualBone Mineral Density Hip and Spine, Generation 3 Exam 2, May 2008 - November 2009: ProtocolHormones (Measured on Females), Offspring Exam 7, Gen 3 Exam 1, Omni 2 Exam 1: Coding ManualHormones (Measured on Females), Offspring Exam 7, Gen 3 Exam 1, Omni 2 Exam 1: Protocol 1Hip Fractures, Original Cohort through July 2012: Annotated FormHip Fractures, Original Cohort through July 2012: Coding ManualHip Fractures, Original Cohort through July 2012: ProtocolImmunoglobulin E, Original Exam 24, Offspring Exam 7, Generation 3 Exam 1: Coding ManualImmunoglobulin E, Original Exam 24, Offspring Exam 7, Generation 3 Exam 1: ProtocolHormones (Measured on Males), Original Exams 17 - 21: Coding ManualCT Kidney Fat, Offspring Cohort, 2002-2005: Annotated FormCT Kidney Fat, Offspring Cohort, 2002-2005: Coding ManualCT Kidney Fat, Offspring Cohort, 2002-2005: ProtocolCT Kidney Fat, Generation 3 Cohort, 2002-2005: Annotated FormCT Kidney Fat, Generation 3 Cohort, 2002-2005: Coding ManualCT Kidney Fat, Generation 3 Cohort, 2002-2005: ProtocolCT Peri-Aortic Fat, Offspring Cohort, 2002-2005: Annotated FormCT Peri-Aortic Fat, Offspring Cohort, 2002-2005: Coding ManualCT Peri-Aortic Fat, Offspring Cohort, 2002-2005: ProtocolCT Peri-Aortic Fat, Generation 3 Cohort, 2002-2005: Annotated FormCT Peri-Aortic Fat, Generation 3 Cohort, 2002-2005: Coding ManualCT Peri-Aortic Fat, Generation 3 Cohort, 2002-2005: ProtocolHormone Measures on Males - Estrone and Estradiol, Offspring Exam 7: Coding ManualHormone Measures on Males - Estrone and Estradiol, Offspring Exam 7: ProtocolBone Mineral Density of Hip and Spine, Generation 3 Exam 2, November 2009 - April 2010: Coding ManualBone Mineral Density of Hip and Spine, Generation 3 Exam 2, November 2009 - April 2010: ProtocolQCT - Volumetric Bone Density, Offspring and Generation 3 Cohorts 2002-2005: Coding ManualQCT - Volumetric Bone Density, Offspring and Generation 3 Cohorts 2002-2005: ProtocolCT Vertebral Fractures, Offspring and Generation 3 Cohorts 2002-2005: Coding ManualCT Vertebral Fractures, Offspring and Generation 3 Cohorts 2002-2005: ProtocolUrinary Biomarkers, Offspring Cohort, Exam 6: Coding ManualUrinary Biomarkers, Offspring Cohort, Exam 6: ProtocolHigh-Sensitivity Cardiac Troponin I (cTnI), Offspring Cohort, Exam 6: Coding ManualHigh-Sensitivity Cardiac Troponin I (cTnI), Offspring Cohort, Exam 6: ProtocolNeurotrophic Factors, Original Cohort Exam 23, Offspring Cohort Exam 7: Coding ManualNeurotrophic Factors, Original Cohort Exam 23, Offspring Cohort Exam 7: ProtocolNeuropathology at Brain Autopsy, Original, Offspring, Gen 3, NOS, Omni 1 1996-2022: Coding ManualNeuropathology at Brain Autopsy, Original, Offspring, Gen 3, NOS, Omni 1 1996-2022: ProtocolECG Cardiopulmonary Coupling, Offspring and Omni 1 Cohorts, 1995-1998: Coding ManualECG Cardiopulmonary Coupling, Offspring and Omni 1 Cohorts, 1995-1998: ProtocolEarly Repolarization, Generation 3 Cohort, Exam 1: Coding ManualEarly Repolarization, Generation 3 Cohort, Exam 1: ProtocolVertebral Fractures Semi-Quantitative Data, Original Cohort, Exams 10, 14, 22: Coding ManualVertebral Fractures Semi-Quantitative Data, Original Cohort, Exams 10, 14, 22: ProtocolAdiponectin, Generation 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: Coding ManualAdiponectin, Generation 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: ProtocolFatty Acid Binding Protein (FABP), Generation 3 Cohort Exam 1, Omni 2 Cohort Exam 1: Coding ManualFatty Acid Binding Protein (FABP), Generation 3 Cohort Exam 1, Omni 2 Cohort Exam 1: ProtocolLeptin, Generation 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: Coding ManualLeptin, Generation 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: ProtocolLeptin Receptor, Generation 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: Coding ManualLeptin Receptor, Generation 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: ProtocolRetinol-Binding Protein 4, Generation 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: Coding ManualRetinol-Binding Protein 4, Generation 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: ProtocolCT Scan Measurements of Spine and Disc, Offspring and Generation 3, 2002-2005: Coding ManualCT Scan Measurements of Spine and Disc, Offspring and Generation 3, 2002-2005: ProtocolHip Structural Analysis, Generation 3 Exam 1: Coding ManualHip Structural Analysis, Generation 3 Exam 1: ProtocolWhole Body and Regional Dual X-ray Absorptiometry (DXA), Generation 3 Exam 2, 5/2008-9/2010: Coding ManualWhole Body and Regional Dual X-ray Absorptiometry (DXA), Generation 3 Exam 2, 5/2008-9/2010: ProtocolFood Frequency Questionnaire and Derived Variables, Generation 3 Exam 1: Annotated FormFood Frequency Questionnaire and Derived Variables, Generation 3 Exam 1: Coding Manual Food Frequency Questionnaire and Derived Variables, Generation 3 Exam 1: ProtocolFetuin-A, Generation 3 Cohort Exam 1, Omni 2 Cohort Exam 1: Coding ManualFetuin-A, Generation 3 Cohort Exam 1, Omni 2 Cohort Exam 1: ProtocolEstradiol and Estrone, Offspring Exam 7 and Generation 3 Exam 1: Coding ManualEstradiol and Estrone, Offspring Exam 7 and Generation 3 Exam 1: ProtocolGrowth differentiation factor-15, Offspring Cohort Exam 6: Coding ManualGrowth differentiation factor-15, Offspring Cohort Exam 6: ProtocolMetabolomics (Hilic - Installment 1), Offspring Cohort Exam 5: Coding ManualMetabolomics (Hilic - installment 1), Offspring Cohort, Exam 5: ProtocolSoluble ST2, Offspring Cohort Exam 6: Coding ManualSoluble ST2, Offspring Cohort Exam 6: ProtocolFoot Study, Original Cohort Exams 27-28, Offspring Cohort Exam 8: Coding ManualFoot Study, Original Cohort Exams 27-28, Offspring Cohort Exam 8: ProtocolMetabolomics - Lipid Platform - Installment 1, Offspring Cohort, Exam 5: Coding ManualMetabolomics - Lipid Platform - Installment 1, Offspring Cohort, Exam 5: ProtocolBone Mineral Density Hip and Spine, Generation 3 Exam 2, April 2010 - March 2011: Coding ManualBone Mineral Density Hip and Spine, Generation 3 Exam 2, April 2010 - March 2011: ProtocolLumbar Facet Joint Osteoarthritis by CT, Offspring and Generation 3 Cohorts, 2002-2005: Coding ManualLumbar Facet Joint Osteoarthritis by CT, Offspring and Generation 3 Cohorts, 2002-2005: ProtocolSleep Electroencephalogram Spectral Power, Offspring Cohort 1995-1998: Coding ManualSleep Electroencephalogram Spectral Power, Offspring Cohort 1995-1998: ProtocolWhole Body and Regional Dual X-ray Absorptiometry (DXA), Generation 3 Exam 2, 9/2010-3/2011: Coding ManualWhole Body and Regional Dual X-ray Absorptiometry (DXA), Generation 3 Exam 2, 9/2010-3/2011: ProtocolFood Frequency Questionnaire with Derived Variables, Offspring Cohort, Exam 8: Annotated FormFood Frequency Questionnaire with Derived Variables, Offspring Cohort, Exam 8: Coding ManualFood Frequency Questionnaire with Derived Variables, Offspring Cohort, Exam 8: ProtocolAntibodies, Offspring Cohort Exam 5: Coding ManualAntibodies, Offspring Cohort Exam 5: ProtocolEndothelial Microparticles, Offspring Cohort Exam 8: Coding ManualEndothelial Microparticles, Offspring Cohort Exam 8: ProtocolEstrone and Estradiol, Generation 3 Cohort Exam 1 and Omni 2 Cohort Exam 1: Coding ManualEstrone and Estradiol, Generation 3 Cohort Exam 1 and Omni 2 Cohort Exam 1: TablesEstrone and Estradiol, Generation 3 Cohort Exam 1 and Omni 2 Cohort Exam 1: ProtocolMenstrual History Questionnaire, Offspring Cohort, 1996-2001: Annotated FormMenstrual History Questionnaire, Offspring Cohort, 1996-2001: Coding ManualMenstrual History Questionnaire, Offspring Cohort, 1996-2001: ProtocolPsychosocial Scales, Selected Variables, Original Cohort Exams 8-10: Coding ManualP wave (Electrocardiography) Duration, Original Cohort Exam 11 and Offspring Exam 1: Coding ManualP wave (Electrocardiography) Duration, Original Cohort Exam 11 and Offspring Exam 1: ProtocolQuadriceps Strength, Generation 3 Exam 2: Annotated FormQuadriceps Strength, Generation 3 Exam 2: Coding ManualQuadriceps Strength, Generation 3 Exam 2: ProtocolPhysical Exam and Disorders of the Foot, Original and Offspring Cohorts, 12/2000-6/2008: Coding ManualPhysical Exam and Disorders of the Foot, Original and Offspring Cohorts, 12/2000-6/2008: ProtocolPhysical Activity Scale for Elderly (PASE), Generation 3 Exam 2: Annotated FormPhysical Activity Scale for Elderly (PASE), Generation 3 Exam 2: Coding ManualPhysical Activity Scale for Elderly (PASE), Generation 3 Exam 2: ProtocolGalectin-3, Offspring Cohort Exam 6: Coding ManualGalectin-3, Offspring Cohort Exam 6: ProtocolCentral Metabolomics - HILIC - Installment 1, Offspring Cohort Exam 5: Coding ManualCentral Metabolomics - HILIC - Installment 1, Offspring Cohort Exam 5: ProtocolMetabolomics - Hilic - Installment 2, Offspring Cohort Exam 5: Coding ManualMetabolomics - Hilic - Installment 2, Offspring Cohort Exam 5: ProtocolMetabolomics - Lipid Platform - Installment 2, Offspring Cohort Exam 5: Coding ManualMetabolomics - Lipid Platform - Installment 2, Offspring Cohort Exam 5: ProtocolRed Blood Cell Fatty Acids, Offspring Cohort Exam 8, Omni Cohort 1 Exam 3: Coding ManualRed Blood Cell Fatty Acids, Offspring Cohort Exam 8, Omni Cohort 1 Exam 3: ProtocolHuman Stromal Cell-derived Factor 1 Alpha (SDF-1), Offspring Cohort Exam 6: Coding ManualHuman Stromal Cell-derived Factor 1 Alpha (SDF-1), Offspring Cohort Exam 6: ProtocolVitamin B12, Folate and Vitamin B6 (PLP), Generation 3 Exam 1: Coding ManualVitamin B12, Folate and Vitamin B6 (PLP), Generation 3 Exam 1: ProtocolCT of Spine Assessing Spondylolysis, Spondylolisthesis, Spinal Stenosis, Offspring and Generation 3, 2002-2005: Coding ManualCT of Spine Assessing Spondylolysis, Spondylolisthesis, Spinal Stenosis, Offspring and Generation 3, 2002-2005: ProtocolEchocardiography, Offspring Exam 8, New Offspring Spouse Exam 1, Omni 1 Exam 3, Omni 2 Exam 1: Annotated FormEchocardiography, Offspring Exam 8, New Offspring Spouse Exam 1, Omni 1 Exam 3, Omni 2 Exam 1: Coding ManualEchocardiography, Offspring Exam 8, New Offspring Spouse Exam 1, Omni 1 Exam 3, Omni 2 Exam 1: ProtocolEchocardiography, Generation 3 Exam 1: Annotated FormEchocardiography, Generation 3 Exam 1: Coding ManualEchocardiography, Generation 3 Exam 1: ProtocolInsulin-like Growth Factor-1 (IGF-1), Offspring Cohort Exam 7: Coding ManualInsulin-like Growth Factor-1 (IGF-1), Offspring Cohort Exam 7: ProtocolCT Lung Measures, Offspring and Generation 3 Cohorts, 2002-2005: Coding ManualCT Lung Measures, Offspring and Generation 3 Cohorts, 2002-2005: ProtocolLab Assays Clinic Exam, Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Coding ManualLab Assays Clinic Exam, Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: ProtocolCentral Metabolomics - HILIC - Installment 2, Offspring Cohort Exam 5: Coding ManualCentral Metabolomics - HILIC - Installment 2, Offspring Cohort Exam 5: ProtocolMetabolomics (Hilic - installment 3), Offspring Cohort Exam 5: Coding ManualMetabolomics (Hilic - installment 3), Offspring Cohort Exam 5: ProtocolFood Frequency Questionnaire with Derived Variables, Gen 3, NOS, Omni 2 Cohorts Exam 2: Annotated FormFood Frequency Questionnaire with Derived Variables, Gen 3, NOS, Omni 2 Cohorts Exam 2: Coding ManualFood Frequency Questionnaire with Derived Variables, Gen 3, NOS, Omni 2 Cohorts Exam 2: ProtocolFood Frequency Questionnaire with Derived Variables, Gen 3, NOS, Omni 2 Cohorts Exam 2: CodesClinic Exam: Interview, Physical Exam, ECG, Gen 3 Exam 2, NOS Exam 2, Omni 2 Exam 2: Annotated FormClinic Exam: Interview, Physical Exam, ECG, Gen 3 Exam 2, NOS Exam 2, Omni 2 Exam 2: Coding ManualClinic Exam: Interview, Physical Exam, ECG, Gen 3 Exam 2, NOS Exam 2, Omni 2 Exam 2: Protocol Methylmalonic Acid (MMA), Generation 3 Cohort Exam 1: Coding ManualMethylmalonic Acid (MMA), Generation 3 Cohort Exam 1: ProtocolBone Mineral Density of Hip and Spine, Offspring Cohort, Jan 2002-Jul 2008: Coding ManualBone Mineral Density of Hip and Spine, Offspring Cohort, Jan 2002-Jul 2008: ProtocolP wave measurements on selected exams, Original Exam 20, Offspring Exam 6, Generation 3 Exam 1: Coding ManualP wave measurements on selected exams, Original Exam 20, Offspring Exam 6, Generation 3 Exam 1: ProtocolMedications Reported at Clinic Exam, Gen 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Annotated FormMedications Reported at Clinic Exam, Gen 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Coding ManualMedications Reported at Clinic Exam, Gen 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Coding Manual SupplementMedications Reported at Clinic Exam, Gen 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: ProtocolExam Date, Age at Exam, Site of Exam and Sex, All Cohorts 1948-2022: Coding ManualExam Date, Age at Exam, Site of Exam and Sex, All Cohorts 1948-2022: ProtocolEchocardiography, Offspring Exam 6, Omni 1 Exam 1: ProtocolFramingham Heart Study Inflammatory Markers Manual, Offspring Cohort Exam 8, Omni Gen 1 Cohort Exam 3Beta Amyloid, Original Cohort Exam 23, Offspring Exam 7, Omni 1 Exam 2: Coding ManualBeta Amyloid, Original Cohort Exam 23, Offspring Exam 7, Omni 1 Exam 2: ProtocolEchocardiography: Cardiac Strain, Offspring Cohort Exam 8: Coding ManualEchocardiography: Cardiac Strain, Offspring Cohort Exam 8: ProtocolEcho MVP Progression, Offspring Cohort Exam 5: Coding ManualEcho MVP Progression, Offspring Cohort Exam 5: ProtocolSigma Power in Sleep (EEG), Original, Offspring, Omni 1 Cohorts, 1995-1998: Coding ManualSigma Power in Sleep (EEG), Original, Offspring, Omni 1 Cohorts, 1995-1998: ProtocolSurvival - Atrial Fibrillation/Flutter - Validated by Medical Records, All Cohorts through 2021: Coding ManualSurvival - Atrial Fibrillation/Flutter - Validated by Medical Records, All Cohorts through 2021: ProtocolSurvival and Follow-up Status for CHF, CVD and CHD, All Cohorts through 2021: Coding ManualSurvival and Follow-up Status for CHF, CVD and CHD, All Cohorts through 2021: ProtocolSurvival - All-cause Mortality, All Cohorts through 2021: Coding ManualSurvival - All-cause Mortality, All Cohorts through 2021: ProtocolCT Lung Measurements (round 2), Offspring and Generation 3 Cohorts 9/2008-3/2011: Coding ManualCT Lung Measurements (round 2), Offspring and Generation 3 Cohorts 9/2008-3/2011: DescriptionCT Lung Measurements (round 2), Offspring and Generation 3 Cohorts 9/2008-3/2011: ProtocolCERAD and Victoria Stroop Neurocognitive Questionnaire, Generation 3 Cohort Exam 2: Annotated FormCERAD and Victoria Stroop Neurocognitive Questionnaire, Generation 3 Cohort Exam 2: Coding ManualCERAD and Victoria Stroop Neurocognitive Questionnaire, Generation 3 Cohort Exam 2: DescriptionCERAD and Victoria Stroop Neurocognitive Questionnaire, Generation 3 Cohort Exam 2: ProtocolCERAD / Stroop Exclusion Data, Generation 3 Cohort Exam 2: Coding ManualCERAD / Stroop Exclusion Data, Generation 3 Cohort Exam 2: DescriptionCreatinine & Cystatin C, Offspring Cohort Exam 7: Version InfoClinic Exam, Offspring Cohort, Exam 7: Version InfoHigh Sensitivity Cardiac Troponin 1 (cTnl), Generation 3 and Omni 2 Cohorts Exam 1: Coding ManualHigh Sensitivity Cardiac Troponin 1 (cTnl), Generation 3 and Omni 2 Cohorts Exam 1: DescriptionHigh Sensitivity Cardiac Troponin 1 (cTnl), Generation 3 and Omni 2 Cohorts Exam 1: ProtocolCentral Metabolomics - HILIC - Installment 1, Offspring Cohort Exam 5: Version InfoCentral Metabolomics - HILIC - Installment 2, Offspring Cohort Exam 5: Version InfoMetabolomics (Hilic - Installment 1), Offspring Cohort Exam 5: Version InfoMetabolomics - Hilic - Installment 2, Offspring Cohort Exam 5: Version InfoMetabolomics (Hilic - Installment 3), Offspring Cohort Exam 5: Version InfoInterstitial Lung Abnormalities (acquired from round 2 CT scans), Offspring and Generation 3 Cohorts 9/2008 to 3/2011: Coding ManualInterstitial Lung Abnormalities (acquired from round 2 CT scans), Offspring and Generation 3 Cohorts 9/2008 to 3/2011: DescriptionInterstitial Lung Abnormalities (acquired from round 2 CT scans), Offspring and Generation 3 Cohorts 9/2008 to 3/2011: ProtocolEchocardiogram: Standard Right Ventricular Measures, Offspring Cohort Exam 8, Omni 1 Cohort Exam 3: Coding ManualEchocardiogram: Standard Right Ventricular Measures, Offspring Cohort Exam 8, Omni 1 Cohort Exam 3: DescriptionEchocardiogram: Standard Right Ventricular Measures, Offspring Cohort Exam 8, Omni 1 Cohort Exam 3: ProtocolPulmonary Function Test Diffusion, Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Coding ManualPulmonary Function Test Diffusion, Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: DescriptionPulmonary Function Test Diffusion, Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: ProtocolPulmonary Function Test (PFT) Pre Albuterol, Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: ProceduresPulmonary Function Test (PFT) Pre Albuterol, Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Coding ManualPulmonary Function Test (PFT) Pre Albuterol, Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: DescriptionPulmonary Function Test (PFT) Pre Albuterol, Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: ProtocolPulmonary Function Test (PFT) Post Albuterol, Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Coding ManualPulmonary Function Test (PFT) Post Albuterol, Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: DescriptionPulmonary Function Test (PFT) Post Albuterol, Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: ProtocolPulmonary Function Test (PFT) Post Albuterol, Offspring Exam 8, Omni 1 Exam 3: Coding ManualPulmonary Function Test (PFT) Post Albuterol, Offspring Exam 8, Omni 1 Exam 3: DescriptionPulmonary Function Test (PFT) Post Albuterol, Offspring Exam 8, Omni 1 Exam 3: ProtocolAtrial Fibrillation/Flutter Cases Reviewed Through 2022 (includes related sinus rhythm cases), All Cohorts through 2022: DescriptionCardiovascular Procedures Validated by Medical Records, All Cohorts through 2022: DescriptionSurvival - Atrial Fibrillation/Flutter - Validated by Medical Records, All Cohorts through 2021: DescriptionSurvival and Follow-up Status for CHF, CVD and CHD, All Cohorts through 2021: DescriptionSurvival - All-cause Mortality, All Cohorts through 2021: DescriptionEndothelial Progenitor Cell Lab Assay, Offspring Cohort Exam 8 and Omni 1 Cohort Exam 3: DescriptionEndothelial Progenitor Cell Lab Assay, Offspring Cohort Exam 8 and Omni 1 Cohort Exam 3: Version InfoCancer Validated by Medical Records, Original, NOS, Omni 1, Omni 2 thru 9/13, Offspring, Gen 3 thru 2/19: DescriptionCancer Validated by Medical Records, Original, NOS, Omni 1, Omni 2 thru 9/13, Offspring, Gen 3 thru 2/19: Version InfoFractures Cases Validated by Medical Records and Other Sources, Gen 3, Omni 2 through 2018: Coding ManualFractures Cases Validated by Medical Records and Other Sources, Gen 3, Omni 2 through 2018: Description Fractures Cases Validated by Medical Records and Other Sources, Gen 3, Omni 2 through 2018: Protocol Fractures Cases Validated by Medical Records and Other Sources, Gen 3, Omni 2 through 2018: Version InfoSOE Pulmonary Embolus & Deep Venous Thrombosis, All Cohorts 1994-2012: DescriptionSOE Pulmonary Embolus & Deep Venous Thrombosis, All Cohorts 1994-2012: Version InfoFramingham Phenotype Datasets Table of ContentsClinic Exam, Generation 3 Cohort, Exam 1: Version InfoInsulin, Offspring Exam 8 and Omni Cohort 1 Exam 3: Coding ManualInsulin, Offspring Exam 8 and Omni Cohort 1 Exam 3: DescriptionInsulin, Offspring Exam 8 and Omni Cohort 1 Exam 3: ProtocolInsulin, Offspring Exam 8 and Omni Cohort 1 Exam 3: Version InfoInsulin, Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Coding ManualInsulin, Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: DescriptionInsulin, Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: ProtocolInsulin, Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Version InfoCT Airway Measurements Round 2, Offspring, Gen 3, Omni 1, Omni 2 Cohorts 2008-2011: Coding ManualCT Airway Measurements Round 2, Offspring, Gen 3, Omni 1, Omni 2 Cohorts 2008-2011: DescriptionCT Airway Measurements Round 2, Offspring, Gen 3, Omni 1, Omni 2 Cohorts 2008-2011: ProtocolCT Airway Measurements Round 2, Offspring, Gen 3, Omni 1, Omni 2 Cohorts 2008-2011: Version InfoCT Scan Dates (Rounds 1 and 2), Offspring, Gen 3, Omni 1, Omni 2 Cohorts 6/2002 - 3/2011: Coding ManualCT Scan Dates (Rounds 1 and 2), Offspring, Gen 3, Omni 1, Omni 2 Cohorts 6/2002 - 3/2011: DescriptionCT Scan Dates (Rounds 1 and 2), Offspring, Gen 3, Omni 1, Omni 2 Cohorts 6/2002 - 3/2011: Version InfoCardiovascular Procedures Validated by Medical Records, All Cohorts through 2022: Version InfoFractures Cases Validated by Medical Records and Other Sources, Offspring, NOS, Omni 1 through 2018: DescriptionFractures Cases Validated by Medical Records and Other Sources, Offspring, NOS, Omni 1 through 2018: Version InfoBrain MRI Dates, All Cohorts 03/1999-12/2022: Coding ManualBrain MRI Dates, All Cohorts 03/1999-12/2022: DescriptionBrain MRI Dates, All Cohorts 03/1999-12/2022: Version InfoCovert Brain Infarct (CBI) for All Cohorts by Brain MRI, All Cohorts 1999-2022: Coding ManualCovert Brain Infarct (CBI) for All Cohorts by Brain MRI, All Cohorts 1999-2022: ProtocolCovert Brain Infarct (CBI) for All Cohorts by Brain MRI, All Cohorts 1999-2022: Version InfoNeuropsychological Battery Dates, All Cohorts 1982 - 2022: Coding ManualNeuropsychological Battery Dates, All Cohorts 1982 - 2022: DescriptionNeuropsychological Battery Dates, All Cohorts 1982 - 2022: Version Info Sequence of Events (SOE) Cardiovascular Endpoints (Includes Death), All Cohorts through 2022: Version InfoCovert Brain Infarct (CBI) for All Cohorts by Brain MRI, All Cohorts 1999-2022: DescriptionClinic Exam: Interview, Physical Exam, ECG, Gen 3 Exam 2, NOS Exam 2, Omni 2 Exam 2: Version InfoBeta Amyloid, Generation 3 Cohort Exam 2, Omni 2 Cohort Exam 2: Coding ManualBeta Amyloid, Generation 3 Cohort Exam 2, Omni 2 Cohort Exam 2: DescriptionBeta Amyloid, Generation 3 Cohort Exam 2, Omni 2 Cohort Exam 2: ProtocolBeta Amyloid, Generation 3 Cohort Exam 2, Omni 2 Cohort Exam 2: Version InfoUrine Metabolomics, Offspring Cohort Exam 6: Coding ManualUrine Metabolomics, Offspring Cohort Exam 6: DescriptionUrine Metabolomics, Offspring Cohort Exam 6: Version InfoUrine Metabolomics, Offspring Cohort Exam 6: Version InfoUrine Albumin and Urine Creatinine, Offspring Cohort Exam 7 and Omni 1 Cohort Exam 2: Coding ManualUrine Albumin and Urine Creatinine, Offspring Cohort Exam 7 and Omni 1 Cohort Exam 2: DescriptionUrine Albumin and Urine Creatinine, Offspring Cohort Exam 7 and Omni 1 Cohort Exam 2: Version InfoUrine Albumin and Urine Creatinine, Offspring Cohort Exam 7 and Omni 1 Cohort Exam 2: Version InfoStructural Brain Segmentation by MRI, Offspring Cohort 2005-2010: Coding ManualStructural Brain Segmentation by MRI, Offspring Cohort 2005-2010: DescriptionStructural Brain Segmentation by MRI, Offspring Cohort 2005-2010: ProtocolStructural Brain Segmentation by MRI, Offspring Cohort 2005-2010: Version InfoBrain MRI - White Matter Hyperintensity, All Cohorts 1999-2022: Coding ManualBrain MRI - White Matter Hyperintensity, All Cohorts 1999-2022: DescriptionBrain MRI - White Matter Hyperintensity, All Cohorts 1999-2022: ProtocolBrain MRI - White Matter Hyperintensity, All Cohorts 1999-2022: Version InfoBrain MRI Putamen, Offspring Cohort 1999-2005: Coding ManualBrain MRI Putamen, Offspring Cohort 1999-2005: DescriptionBrain MRI Putamen, Offspring Cohort 1999-2005: ProtocolBrain MRI Putamen, Offspring Cohort 1999-2005: Version InfoAtrial Fibrillation/Flutter Cases Reviewed Through 2022 (includes related sinus rhythm cases), All Cohorts through 2022: Version Info Dementia Diagnosis Consensus Reviews, All Cohorts through 2022: Coding ManualDementia Diagnosis Consensus Reviews, All Cohorts through 2022: DescriptionDementia Diagnosis Consensus Reviews, All Cohorts through 2022: ProtocolDementia Diagnosis Consensus Reviews, All Cohorts through 2022: Version Info Neuropsychology Test Scores Performed by the FHS Brain Aging Program (BAP), All Cohorts through 2022: Coding ManualNeuropsychology Test Scores Performed by the FHS Brain Aging Program (BAP), All Cohorts through 2022: DescriptionNeuropsychology Test Scores Performed by the FHS Brain Aging Program (BAP), All Cohorts through 2022: Protocol 1Neuropsychology Test Scores Performed by the FHS Brain Aging Program (BAP), All Cohorts through 2022: Version InfoKaplan-Albert Neuropsychological Test Battery, Original Cohort Exams 14-15: Annotated FormKaplan-Albert Neuropsychological Test Battery, Original Cohort Exams 14-15: Coding ManualKaplan-Albert Neuropsychological Test Battery, Original Cohort Exams 14-15: DescriptionKaplan-Albert Neuropsychological Test Battery, Original Cohort Exams 14-15: ProtocolKaplan-Albert Neuropsychological Test Battery, Original Cohort Exams 14-15: Version InfoClinic Exam: Interview, Physical Exam, ECG, Omni 1 Cohort Exam 1: Annotated FormClinic Exam: Interview, Physical Exam, ECG, Omni 1 Cohort Exam 1: Coding ManualClinic Exam: Interview, Physical Exam, ECG, Omni 1 Cohort Exam 1: DescriptionClinic Exam: Interview, Physical Exam, ECG, Omni 1 Cohort Exam 1: ProtocolClinic Exam: Interview, Physical Exam, ECG, Omni 1 Cohort Exam 1: Version InfoClinic Exam: Interview, Physical Exam, ECG, Omni 1 Cohort Exam 2: Annotated FormClinic Exam: Interview, Physical Exam, ECG, Omni 1 Cohort Exam 2: Coding Manual Clinic Exam: Interview, Physical Exam, ECG, Omni 1 Cohort Exam 2: DescriptionClinic Exam: Interview, Physical Exam, ECG, Omni 1 Cohort Exam 2: ProtocolClinic Exam: Interview, Physical Exam, ECG, Omni 1 Cohort Exam 2: Version InfoClinic Exam Data: Interview, Physical Exam, ECG, Omni 1 Cohort Exam 3: Annotated FormClinic Exam Data: Interview, Physical Exam, ECG, Omni 1 Cohort Exam 3: Coding Manual Clinic Exam Data: Interview, Physical Exam, ECG, Omni 1 Cohort Exam 3: DescriptionClinic Exam Data: Interview, Physical Exam, ECG, Omni 1 Cohort Exam 3: ProtocolClinic Exam Data: Interview, Physical Exam, ECG, Omni 1 Cohort Exam 3: Version InfoExam Dates and Age Ranges as of 2022Lab Assay: Cortisol, Gen 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: Coding ManualLab Assay: Cortisol, Gen 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: DescriptionLab Assay: Cortisol, Gen 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: ProtocolLab Assay: Cortisol, Gen 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: Version InfoLab Assays Clinic Exam, Omni 1 Cohort Exam 1: Coding ManualLab Assays Clinic Exam, Omni 1 Cohort Exam 1: DescriptionLab Assays Clinic Exam, Omni 1 Cohort Exam 1: ProtocolLab Assays Clinic Exam, Omni 1 Cohort Exam 1: Version InfoRoutine Lab Work, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: Coding ManualRoutine Lab Work, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: DescriptionRoutine Lab Work, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: ProtocolRoutine Lab Work, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: Version InfoFree T4, TSH, Prolactin, Gen 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: Coding ManualFree T4, TSH, Prolactin, Gen 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: DescriptionFree T4, TSH, Prolactin, Gen 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: ProtocolFree T4, TSH, Prolactin, Gen 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: Version InfoInsulin (Plasma), Omni 2 Cohort Exam 1: Coding ManualInsulin (Plasma), Omni 2 Cohort Exam 1: DescriptionInsulin (Plasma), Omni 2 Cohort Exam 1: ProtocolInsulin (Plasma), Omni 2 Cohort Exam 1: Version InfoInsulin Lab Assay (Blood), Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: Coding ManualInsulin Lab Assay (Blood), Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: DescriptionInsulin Lab Assay (Blood), Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: ProtocolInsulin Lab Assay (Blood), Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: Version InfoPlatelet Aggregation, Omni 1 Cohort Exam 1: Annotated FormPlatelet Aggregation, Omni 1 Cohort Exam 1: Coding ManualPlatelet Aggregation, Omni 1 Cohort Exam 1: DescriptionPlatelet Aggregation, Omni 1 Cohort Exam 1: ProtocolPlatelet Aggregation, Omni 1 Cohort Exam 1: Version InfoLab Assay: Vitamin D and Parathyroid Hormone (PTH), Offspring Exam 9, Omni 1 Exam 4: Coding ManualLab Assay: Vitamin D and Parathyroid Hormone (PTH), Offspring Exam 9, Omni 1 Exam 4: DescriptionLab Assay: Vitamin D and Parathyroid Hormone (PTH), Offspring Exam 9, Omni 1 Exam 4: ProtocolLab Assay: Vitamin D and Parathyroid Hormone (PTH), Offspring Exam 9, Omni 1 Exam 4: Version Info24 Hour Urine Collection, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: Coding Manual24 Hour Urine Collection, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: Description24 Hour Urine Collection, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: Protocol24 Hour Urine Collection, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: Version InfoPulmonary Function Test Diffusion, Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Version InfoPulmonary Function (PFT) Diffusion, Offspring Cohort Exam 8: DescriptionPulmonary Function (PFT) Diffusion, Offspring Cohort Exam 8: Version InfoPhysical Activity Monitor (Actical), Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Coding ManualPhysical Activity Monitor (Actical), Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Coding Manual Supplement [1 of 5]Physical Activity Monitor (Actical), Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: DescriptionPhysical Activity Monitor (Actical), Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: ProtocolPhysical Activity Monitor (Actical), Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Version InfoPhysical Activity Monitor (Actical), Offspring Exam 9, Omni 1 Exam 4: Coding ManualPhysical Activity Monitor (Actical), Offspring Exam 9, Omni 1 Exam 4: Coding Manual Supplement [1 of 5]Physical Activity Monitor (Actical), Offspring Exam 9, Omni 1 Exam 4: DescriptionPhysical Activity Monitor (Actical), Offspring Exam 9, Omni 1 Exam 4: ProtocolPhysical Activity Monitor (Actical), Offspring Exam 9, Omni 1 Exam 4: Version InfoExam Date, Age at Exam, Site of Exam and Sex, All Cohorts 1948-2022: DescriptionExam Date, Age at Exam, Site of Exam and Sex, All Cohorts 1948-2022: Version Info Medications Reported at Clinic Exam (ATC coded), Offspring Exam 9, Omni 1 Exam 4: Annotated FormMedications Reported at Clinic Exam (ATC coded), Offspring Exam 9, Omni 1 Exam 4: Coding ManualMedications Reported at Clinic Exam (ATC coded), Offspring Exam 9, Omni 1 Exam 4: Coding Manual SupplementMedications Reported at Clinic Exam (ATC coded), Offspring Exam 9, Omni 1 Exam 4: DescriptionMedications Reported at Clinic Exam (ATC coded), Offspring Exam 9, Omni 1 Exam 4: ProtocolMedications Reported at Clinic Exam (ATC coded), Offspring Exam 9, Omni 1 Exam 4: Version InfoAdiponectin, Generation 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: DescriptionAdiponectin, Generation 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: Version InfoBeta Amyloid, Original Cohort Exam 23, Offspring Exam 7, Omni 1 Exam 2: Version InfoEstrone and Estradiol, Generation 3 Cohort Exam 1 and Omni 2 Cohort Exam 1: Version InfoFatty Acid Binding Protein (FABP), Generation 3 Cohort Exam 1, Omni 2 Cohort Exam 1: DescriptionFatty Acid Binding Protein (FABP), Generation 3 Cohort Exam 1, Omni 2 Cohort Exam 1: Version InfoFetuin-A, Generation 3 Cohort Exam 1, Omni 2 Cohort Exam 1: DescriptionFetuin-A, Generation 3 Cohort Exam 1, Omni 2 Cohort Exam 1: Version InfoLab Assays Clinic Exam, Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: DescriptionLab Assays Clinic Exam, Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Version InfoHigh Sensitivity Cardiac Troponin 1 (cTnl), Generation 3 and Omni 2 Cohorts Exam 1: Version InfoInsulin-like Growth Factor-1 (IGF-1), Offspring Cohort Exam 7: DescriptionInsulin-like Growth Factor-1 (IGF-1), Offspring Cohort Exam 7: Version InfoLeptin, Generation 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: DescriptionLeptin, Generation 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: Version InfoLeptin Receptor, Generation 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: DescriptionLeptin Receptor, Generation 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: Version InfoRed Blood Cell Fatty Acids, Offspring Cohort Exam 8, Omni Cohort 1 Exam 3: Version InfoRetinol-Binding Protein 4, Generation 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: DescriptionRetinol-Binding Protein 4, Generation 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: Version InfoECG Cardiopulmonary Coupling, Offspring and Omni 1 Cohorts, 1995-1998: Version InfoEchocardiography, Offspring Exam 8, New Offspring Spouse Exam 1, Omni 1 Exam 3, Omni 2 Exam 1: Version InfoEchocardiogram: Standard Right Ventricular Measures, Offspring Cohort Exam 8, Omni 1 Cohort Exam 3: Version InfoSigma Power in Sleep (EEG), Original, Offspring, Omni 1 Cohorts, 1995-1998: Version InfoPulmonary Function Test (PFT) Pre Albuterol, Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Version InfoPulmonary Function Test (PFT) Post Albuterol, Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Version InfoPulmonary Function Test (PFT) Post Albuterol, Offspring Exam 8, Omni 1 Exam 3: Version InfoMedications Reported at Clinic Exam, Gen 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: DescriptionMedications Reported at Clinic Exam, Gen 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Version InfoSurvival - Atrial Fibrillation/Flutter - Validated by Medical Records, All Cohorts through 2021: Version InfoSurvival and Follow-up Status for CHF, CVD and CHD, All Cohorts through 2021: Version InfoSurvival - All-cause Mortality, All Cohorts through 2021: Version InfoPhysical Activity Monitor (Actical), Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Coding Manual Supplement [2 of 5]Physical Activity Monitor (Actical), Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Coding Manual Supplement [3 of 5]Physical Activity Monitor (Actical), Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Coding Manual Supplement [4 of 5]Physical Activity Monitor (Actical), Generation 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Coding Manual Supplement [5 of 5]Physical Activity Monitor (Actical), Offspring Exam 9, Omni 1 Exam 4: Coding Manual Supplement [2 of 5]Physical Activity Monitor (Actical), Offspring Exam 9, Omni 1 Exam 4: Coding Manual Supplement [3 of 5]Physical Activity Monitor (Actical), Offspring Exam 9, Omni 1 Exam 4: Coding Manual Supplement [4 of 5]Physical Activity Monitor (Actical), Offspring Exam 9, Omni 1 Exam 4: Coding Manual Supplement [5 of 5]Clinic Exam: Interview, Physical Exam, ECG, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: Annotated FormClinic Exam: Interview, Physical Exam, ECG, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: Coding ManualClinic Exam: Interview, Physical Exam, ECG, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: DescriptionClinic Exam: Interview, Physical Exam, ECG, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: ProtocolClinic Exam: Interview, Physical Exam, ECG, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: Version Info Clinic Exam: Interview, Physical Exam, ECG, Original Cohort Exam 29: Annotated FormClinic Exam: Interview, Physical Exam, ECG, Original Cohort Exam 29: Coding ManualClinic Exam: Interview, Physical Exam, ECG, Original Cohort Exam 29: DescriptionClinic Exam: Interview, Physical Exam, ECG, Original Cohort Exam 29: ProtocolClinic Exam: Interview, Physical Exam, ECG, Original Cohort Exam 29: Version InfoClinic Exam Data: Interview, Physical Exam, ECG, Original Cohort Exam 30: Annotated FormClinic Exam Data: Interview, Physical Exam, ECG, Original Cohort Exam 30: Coding ManualClinic Exam Data: Interview, Physical Exam, ECG, Original Cohort Exam 30: DescriptionClinic Exam Data: Interview, Physical Exam, ECG, Original Cohort Exam 30: ProtocolClinic Exam Data: Interview, Physical Exam, ECG, Original Cohort Exam 30: Version InfoRoutine Blood Work processed by the FHS Laboratory, New Offspring Spouse Exam 1, Omni 2 Exam 1: Coding ManualRoutine Blood Work processed by the FHS Laboratory, New Offspring Spouse Exam 1, Omni 2 Exam 1: DescriptionRoutine Blood Work processed by the FHS Laboratory, New Offspring Spouse Exam 1, Omni 2 Exam 1: ProtocolRoutine Blood Work processed by the FHS Laboratory, New Offspring Spouse Exam 1, Omni 2 Exam 1: Version InfoNegatively Charged Polar Metabolomics - Amide - Installment 1, Generation 3 Cohort Exam 1: Coding ManualNegatively Charged Polar Metabolomics - Amide - Installment 1, Generation 3 Cohort Exam 1: DescriptionNegatively Charged Polar Metabolomics - Amide - Installment 1, Generation 3 Cohort Exam 1: ProtocolNegatively Charged Polar Metabolomics - Amide - Installment 1, Generation 3 Cohort Exam 1: Version InfoTargeted and Untargeted Metabolomics - HILIC - Installment 1, Generation 3 Cohort Exam 1: Coding ManualTargeted and Untargeted Metabolomics - HILIC - Installment 1, Generation 3 Cohort Exam 1: DescriptionTargeted and Untargeted Metabolomics - HILIC - Installment 1, Generation 3 Cohort Exam 1: ProtocolTargeted and Untargeted Metabolomics - HILIC - Installment 1, Generation 3 Cohort Exam 1: Version InfoLab Assay: Red Blood Cell Fatty Acid (blood), Generation 3 Cohort Exam 2, Omni 2 Cohort Exam 2: Coding ManualLab Assay: Red Blood Cell Fatty Acid (blood), Generation 3 Cohort Exam 2, Omni 2 Cohort Exam 2: DescriptionLab Assay: Red Blood Cell Fatty Acid (blood), Generation 3 Cohort Exam 2, Omni 2 Cohort Exam 2: ProtocolLab Assay: Red Blood Cell Fatty Acid (blood), Generation 3 Cohort Exam 2, Omni 2 Cohort Exam 2: Version InfoExtra Cellular RNA: Plasma RNA Sequencing Results Pilot, Offspring Cohort Exam 8: Coding ManualExtra Cellular RNA: Plasma RNA Sequencing Results Pilot, Offspring Cohort Exam 8: DescriptionExtra Cellular RNA: Plasma RNA Sequencing Results Pilot, Offspring Cohort Exam 8: ProtocolExtra Cellular RNA: Plasma RNA Sequencing Results Pilot, Offspring Cohort Exam 8: Version InfoExtra Cellular RNA, Offspring Cohort Exam 8: Coding ManualExtra Cellular RNA, Offspring Cohort Exam 8: DescriptionExtra Cellular RNA, Offspring Cohort Exam 8: ProtocolExtra Cellular RNA, Offspring Cohort Exam 8: Version InfoAnkle Brachial Blood Pressure Measurements, Gen 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Annotated FormAnkle Brachial Blood Pressure Measurements, Gen 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Coding ManualAnkle Brachial Blood Pressure Measurements, Gen 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: DescriptionAnkle Brachial Blood Pressure Measurements, Gen 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: ProtocolAnkle Brachial Blood Pressure Measurements, Gen 3 Exam 2, New Offspring Spouse Exam 2, Omni 2 Exam 2: Version InfoAnkle Arm Blood Pressure, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: Annotated FormAnkle Arm Blood Pressure, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: Coding ManualAnkle Arm Blood Pressure, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: DescriptionAnkle Arm Blood Pressure, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: ProtocolAnkle Arm Blood Pressure, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: Version InfoDXA Bone Mineral Density (BMD) of the Hip and Spine, New Offspring Spouse Cohort Exam 2: Coding ManualDXA Bone Mineral Density (BMD) of the Hip and Spine, New Offspring Spouse Cohort Exam 2: DescriptionDXA Bone Mineral Density (BMD) of the Hip and Spine, New Offspring Spouse Cohort Exam 2: ProtocolDXA Bone Mineral Density (BMD) of the Hip and Spine, New Offspring Spouse Cohort Exam 2: Version InfoCT - Abdominal Aorta Calcium Scores, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: Coding ManualCT - Abdominal Aorta Calcium Scores, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: DescriptionCT - Abdominal Aorta Calcium Scores, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: ProtocolCT - Abdominal Aorta Calcium Scores, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: Version InfoCT - Abdominal Fat (subcutaneous and visceral), Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: Annotated FormCT - Abdominal Fat (subcutaneous and visceral), Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: Coding ManualCT - Abdominal Fat (subcutaneous and visceral), Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: DescriptionCT - Abdominal Fat (subcutaneous and visceral), Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: ProtocolCT - Abdominal Fat (subcutaneous and visceral), Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: Version InfoCT - Renal Artery Calcium Scores, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: Coding ManualCT - Renal Artery Calcium Scores, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: DescriptionCT - Renal Artery Calcium Scores, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: ProtocolCT - Renal Artery Calcium Scores, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: Version InfoEmphysema by CT (round 2 2008-2011), Offspring, Generation 3 Cohorts 2008-2011: Coding ManualEmphysema by CT (round 2 2008-2011), Offspring, Generation 3 Cohorts 2008-2011: DescriptionEmphysema by CT (round 2 2008-2011), Offspring, Generation 3 Cohorts 2008-2011: ProtocolEmphysema by CT (round 2 2008-2011), Offspring, Generation 3 Cohorts 2008-2011: Version InfoCT - Iliac Artery Calcification (IAC), Offspring Cohort 2002 – 2005: Annotated FormCT - Iliac Artery Calcification (IAC), Offspring Cohort 2002 – 2005: Coding ManualCT - Iliac Artery Calcification (IAC), Offspring Cohort 2002 – 2005: DescriptionCT - Iliac Artery Calcification (IAC), Offspring Cohort 2002 – 2005: ProtocolCT - Iliac Artery Calcification (IAC), Offspring Cohort 2002 – 2005: Version InfoCT - Liver Fat, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: Annotated FormCT - Liver Fat, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: Coding ManualCT - Liver Fat, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: DescriptionCT - Liver Fat, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: ProtocolCT - Liver Fat, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: Version InfoCT - Pericardial and Extracardial Fat, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 09/2008 - 03/2011: Annotated FormCT - Pericardial and Extracardial Fat, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 09/2008 - 03/2011: Coding ManualCT - Pericardial and Extracardial Fat, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 09/2008 - 03/2011: DescriptionCT - Pericardial and Extracardial Fat, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 09/2008 - 03/2011: ProtocolCT - Pericardial and Extracardial Fat, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 09/2008 - 03/2011: Version InfoMeasurement from CT Image of the Thoracic Aortic Calcifications, Offspring, Generation 3 Cohorts 06/2002-04/2005: Annotated FormMeasurement from CT Image of the Thoracic Aortic Calcifications, Offspring, Generation 3 Cohorts 06/2002-04/2005: Coding ManualMeasurement from CT Image of the Thoracic Aortic Calcifications, Offspring, Generation 3 Cohorts 06/2002-04/2005: DescriptionMeasurement from CT Image of the Thoracic Aortic Calcifications, Offspring, Generation 3 Cohorts 06/2002-04/2005: Protocol Measurement from CT Image of the Thoracic Aortic Calcifications, Offspring, Generation 3 Cohorts 06/2002-04/2005: Version InfoCT - Thoracic Aortic Valve Calcium Scores, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: Coding ManualCT - Thoracic Aortic Valve Calcium Scores, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: DescriptionCT - Thoracic Aortic Valve Calcium Scores, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: ProtocolCT - Thoracic Aortic Valve Calcium Scores, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: Version InfoCT - Thoracic Coronary Artery Calcium Score and Volume, Offspring, Gen 3, Omni 1, Omni 2 Cohorts 09/2008 - 03/2011: Coding ManualCT - Thoracic Coronary Artery Calcium Score and Volume, Offspring, Gen 3, Omni 1, Omni 2 Cohorts 09/2008 - 03/2011: DescriptionCT - Thoracic Coronary Artery Calcium Score and Volume, Offspring, Gen 3, Omni 1, Omni 2 Cohorts 09/2008 - 03/2011: ProtocolCT - Thoracic Coronary Artery Calcium Score and Volume, Offspring, Gen 3, Omni 1, Omni 2 Cohorts 09/2008 - 03/2011: Version InfoCT - Thoracic Mitral Valve Calcium Scores, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: Coding ManualCT - Thoracic Mitral Valve Calcium Scores, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: DescriptionCT - Thoracic Mitral Valve Calcium Scores, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: ProtocolCT - Thoracic Mitral Valve Calcium Scores, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: Version InfoCT - Thoracic Aortic Calcium Scores, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: Coding ManualCT - Thoracic Aortic Calcium Scores, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: DescriptionCT - Thoracic Aortic Calcium Scores, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: ProtocolCT - Thoracic Aortic Calcium Scores, Offspring, Generation 3, Omni 1, Omni 2 Cohorts 9/2008 - 3/2011: Version InfoVascular Morphology Measurements from CT Lung Image (Round 2), Offspring, Gen 3, Omni 1, Omni 2 Cohorts 2008 - 2011: Coding ManualVascular Morphology Measurements from CT Lung Image (Round 2), Offspring, Gen 3, Omni 1, Omni 2 Cohorts 2008 - 2011: DescriptionVascular Morphology Measurements from CT Lung Image (Round 2), Offspring, Gen 3, Omni 1, Omni 2 Cohorts 2008 - 2011: ProtocolVascular Morphology Measurements from CT Lung Image (Round 2), Offspring, Gen 3, Omni 1, Omni 2 Cohorts 2008 - 2011: Version InfoCerebral Micro Bleeds (CMB) by Head MRI, Original, Offspring Cohorts 12/2000 - 6/2009: Coding ManualCerebral Micro Bleeds (CMB) by Head MRI, Original, Offspring Cohorts 12/2000 - 6/2009: DescriptionCerebral Micro Bleeds (CMB) by Head MRI, Original, Offspring Cohorts 12/2000 - 6/2009: ProtocolCerebral Micro Bleeds (CMB) by Head MRI, Original, Offspring Cohorts 12/2000 - 6/2009: Version InfoTract-based Spatial Statistics (TBSS) Based on Brain MRI, Offspring, Generation 3 Cohorts 6/2009 - 6/2014: Coding ManualTract-based Spatial Statistics (TBSS) Based on Brain MRI, Offspring, Generation 3 Cohorts 6/2009 - 6/2014: DescriptionTract-based Spatial Statistics (TBSS) Based on Brain MRI, Offspring, Generation 3 Cohorts 6/2009 - 6/2014: ProtocolTract-based Spatial Statistics (TBSS) Based on Brain MRI, Offspring, Generation 3 Cohorts 6/2009 - 6/2014: Version InfoPulmonary Function Diffusion Test, New Offspring Spouse Cohort Exam 1, Omni 2 Cohort Exam 1: Coding ManualPulmonary Function Diffusion Test, New Offspring Spouse Cohort Exam 1, Omni 2 Cohort Exam 1: DescriptionPulmonary Function Diffusion Test, New Offspring Spouse Cohort Exam 1, Omni 2 Cohort Exam 1: ProtocolPulmonary Function Diffusion Test, New Offspring Spouse Cohort Exam 1, Omni 2 Cohort Exam 1: Version InfoPulmonary Function Diffusion Test, Omni 1 Cohort Exam 3: Coding ManualPulmonary Function Diffusion Test, Omni 1 Cohort Exam 3: DescriptionPulmonary Function Diffusion Test, Omni 1 Cohort Exam 3: ProtocolPulmonary Function Diffusion Test, Omni 1 Cohort Exam 3: Version InfoPulmonary Function Test (PFT) Diffusion, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: Coding ManualPulmonary Function Test (PFT) Diffusion, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: DescriptionPulmonary Function Test (PFT) Diffusion, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: ProtocolPulmonary Function Test (PFT) Diffusion, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: Version InfoPulmonary Function Test (PFT) Pre Albuterol, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: Coding ManualPulmonary Function Test (PFT) Pre Albuterol, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: DescriptionPulmonary Function Test (PFT) Pre Albuterol, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: ProtocolPulmonary Function Test (PFT) Pre Albuterol, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: Version InfoPulmonary Function Test (PFT) Pre Albuterol, New Offspring Spouse Cohort Exam 1, Omni 2 Cohort Exam 1: Coding ManualPulmonary Function Test (PFT) Pre Albuterol, New Offspring Spouse Cohort Exam 1, Omni 2 Cohort Exam 1: DescriptionPulmonary Function Test (PFT) Pre Albuterol, New Offspring Spouse Cohort Exam 1, Omni 2 Cohort Exam 1: ProtocolPulmonary Function Test (PFT) Pre Albuterol, New Offspring Spouse Cohort Exam 1, Omni 2 Cohort Exam 1: Version InfoPulmonary Function Test (PFT) Post Albuterol, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: Coding ManualPulmonary Function Test (PFT) Post Albuterol, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: DescriptionPulmonary Function Test (PFT) Post Albuterol, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: ProtocolPulmonary Function Test (PFT) Post Albuterol, Offspring Cohort Exam 9, Omni 1 Cohort Exam 4: Version InfoDementia Diagnosis Consensus Reviews, All Cohorts through 2022: Annotated FormMedications Reported at Clinic Exam (ATC coded), New Offspring Spouse Exam 1, Omni 2 Exam 1: Annotated FormMedications Reported at Clinic Exam (ATC coded), New Offspring Spouse Exam 1, Omni 2 Exam 1: Coding ManualMedications Reported at Clinic Exam (ATC coded), New Offspring Spouse Exam 1, Omni 2 Exam 1: Coding Manual SupplementMedications Reported at Clinic Exam (ATC coded), New Offspring Spouse Exam 1, Omni 2 Exam 1: DescriptionMedications Reported at Clinic Exam (ATC coded), New Offspring Spouse Exam 1, Omni 2 Exam 1: ProtocolMedications Reported at Clinic Exam (ATC coded), New Offspring Spouse Exam 1, Omni 2 Exam 1: Version InfoMedications Reported at Clinic Exam, Original Cohort Exams 29, 30, 31: Annotated FormMedications Reported at Clinic Exam, Original Cohort Exams 29, 30, 31: Coding ManualMedications Reported at Clinic Exam, Original Cohort Exams 29, 30, 31: Coding Manual SupplementMedications Reported at Clinic Exam, Original Cohort Exams 29, 30, 31: DescriptionMedications Reported at Clinic Exam, Original Cohort Exams 29, 30, 31: ProtocolMedications Reported at Clinic Exam, Original Cohort Exams 29, 30, 31: Version InfoCognitive Function Test Mini Mental State Exam (MMSE), Offspring Exams 5-10, Omni 1 Exams 1-5: DescriptionCognitive Function Test Mini Mental State Exam (MMSE), Offspring Exams 5-10, Omni 1 Exams 1-5: Version InfoCognitive Function Test - Mini Mental State Exam (MMSE), Original Cohort Exams 17-32: DescriptionCognitive Function Test - Mini Mental State Exam (MMSE), Original Cohort Exams 17-32: Version InfoBrain MRI Dates, All Cohorts 03/1999-12/2022: ProtocolNeuropsychological Battery Dates, All Cohorts 1982 - 2022: ProtocolSequence of Events (SOE) Cardiovascular Endpoints (Includes Death), All Cohorts through 2022: Annotated FormSequence of Events (SOE) Cardiovascular Endpoints (Includes Death), All Cohorts through 2022: DescriptionSequence of Events (SOE) Cardiovascular Endpoints (Includes Death), All Cohorts through 2022: ProtocolLab Assay: Fructosamine (Blood), Offspring Exam 7, Omni 1 Exam 2, Gen 3 Exam 1, NOS Exam 1, Omni 2 Exam 1: Coding ManualLab Assay: Fructosamine (Blood), Offspring Exam 7, Omni 1 Exam 2, Gen 3 Exam 1, NOS Exam 1, Omni 2 Exam 1: DescriptionLab Assay: Fructosamine (Blood), Offspring Exam 7, Omni 1 Exam 2, Gen 3 Exam 1, NOS Exam 1, Omni 2 Exam 1: ProtocolLab Assay: Fructosamine (Blood), Offspring Exam 7, Omni 1 Exam 2, Gen 3 Exam 1, NOS Exam 1, Omni 2 Exam 1: Version InfoClinic Exam Data: Interview, Physical Exam, ECG, New Offspring Spouse Cohort Exam 1: Annotated FormClinic Exam Data: Interview, Physical Exam, ECG, New Offspring Spouse Cohort Exam 1: Coding ManualClinic Exam Data: Interview, Physical Exam, ECG, New Offspring Spouse Cohort Exam 1: DescriptionClinic Exam Data: Interview, Physical Exam, ECG, New Offspring Spouse Cohort Exam 1: ProtocolClinic Exam Data: Interview, Physical Exam, ECG, New Offspring Spouse Cohort Exam 1: Version InfoClinic Exam Data: Interview, Physical Exam, ECG, New Offspring Spouse Cohort Exam 1: FrequenciesClinic Exam: Interview, Physical Exam, ECG, Omni 2 Cohort Exam 1: Annotated FormClinic Exam: Interview, Physical Exam, ECG, Omni 2 Cohort Exam 1: Coding ManualClinic Exam: Interview, Physical Exam, ECG, Omni 2 Cohort Exam 1: DescriptionClinic Exam: Interview, Physical Exam, ECG, Omni 2 Cohort Exam 1: ProtocolClinic Exam: Interview, Physical Exam, ECG, Omni 2 Cohort Exam 1: Version InfoClinic Exam: Interview, Physical Exam, ECG, Omni 2 Cohort Exam 1: FrequenciesHand Bone Lengths by X-ray, Original Cohort 1967-1969, 1992-1993, Offspring Cohort 1993-1995, 2002-2003: Coding ManualHand Bone Lengths by X-ray, Original Cohort 1967-1969, 1992-1993, Offspring Cohort 1993-1995, 2002-2003: DescriptionHand Bone Lengths by X-ray, Original Cohort 1967-1969, 1992-1993, Offspring Cohort 1993-1995, 2002-2003: ProtocolHand Bone Lengths by X-ray, Original Cohort 1967-1969, 1992-1993, Offspring Cohort 1993-1995, 2002-2003: Version InfoInitial CHF Cases Reviewed for Additional Information, All Cohorts 1980-2013: Annotated Form Initial CHF Cases Reviewed for Additional Information, All Cohorts 1980-2013: Coding ManualInitial CHF Cases Reviewed for Additional Information, All Cohorts 1980-2013: DescriptionInitial CHF Cases Reviewed for Additional Information, All Cohorts 1980-2013: ProtocolInitial CHF Cases Reviewed for Additional Information, All Cohorts 1980-2013: Version InfoMedications Reported at Clinic Exam (ATC coded), Omni 1 Cohort Exam 3: Annotated FormMedications Reported at Clinic Exam (ATC coded), Omni 1 Cohort Exam 3: Coding ManualMedications Reported at Clinic Exam (ATC coded), Omni 1 Cohort Exam 3: Coding Manual SupplementMedications Reported at Clinic Exam (ATC coded), Omni 1 Cohort Exam 3: DescriptionMedications Reported at Clinic Exam (ATC coded), Omni 1 Cohort Exam 3: ProtocolMedications Reported at Clinic Exam (ATC coded), Omni 1 Cohort Exam 3: Version InfoClinic Exam Data: Interview, Physical Exam, ECG, Original Cohort Exam 31: Annotated FormClinic Exam Data: Interview, Physical Exam, ECG, Original Cohort Exam 31: Coding ManualClinic Exam Data: Interview, Physical Exam, ECG, Original Cohort Exam 31: DescriptionClinic Exam Data: Interview, Physical Exam, ECG, Original Cohort Exam 31: ProtocolClinic Exam Data: Interview, Physical Exam, ECG, Original Cohort Exam 31: Version InfoClinic Exam Data: Interview, Physical Exam, ECG, Original Cohort Exam 32: Annotated FormClinic Exam Data: Interview, Physical Exam, ECG, Original Cohort Exam 32: Coding ManualClinic Exam Data: Interview, Physical Exam, ECG, Original Cohort Exam 32: DescriptionClinic Exam Data: Interview, Physical Exam, ECG, Original Cohort Exam 32: ProtocolClinic Exam Data: Interview, Physical Exam, ECG, Original Cohort Exam 32: Version InfoBrain Derived Neurotrophic Factor - Lab Assay (Blood), Generation 3, New Offspring Spouse, Omni 2 Cohorts Exam 2: Coding ManualBrain Derived Neurotrophic Factor - Lab Assay (Blood), Generation 3, New Offspring Spouse, Omni 2 Cohorts Exam 2: DescriptionBrain Derived Neurotrophic Factor - Lab Assay (Blood), Generation 3, New Offspring Spouse, Omni 2 Cohorts Exam 2: ProtocolBrain Derived Neurotrophic Factor - Lab Assay (Blood), Generation 3, New Offspring Spouse, Omni 2 Cohorts Exam 2: Version InfoLab Assays Processed at FHS Laboratory - Clinic Exam, Omni 1 Cohort Exam 2: Coding ManualLab Assays Processed at FHS Laboratory - Clinic Exam, Omni 1 Cohort Exam 2: DescriptionLab Assays Processed at FHS Laboratory - Clinic Exam, Omni 1 Cohort Exam 2: ProtocolLab Assays Processed at FHS Laboratory - Clinic Exam, Omni 1 Cohort Exam 2: Version InfoRoutine Blood Work Processed at Framingham, Omni 1 Cohort Exam 3: Coding ManualRoutine Blood Work Processed at Framingham, Omni 1 Cohort Exam 3: DescriptionRoutine Blood Work Processed at Framingham, Omni 1 Cohort Exam 3: ProtocolRoutine Blood Work Processed at Framingham, Omni 1 Cohort Exam 3: Version InfoAptamer Proteomic Profiling Lab Assay (blood), Offspring Cohort Exam 5: Coding ManualAptamer Proteomic Profiling Lab Assay (blood), Offspring Cohort Exam 5: DescriptionAptamer Proteomic Profiling Lab Assay (blood), Offspring Cohort Exam 5: ProtocolAptamer Proteomic Profiling Lab Assay (blood), Offspring Cohort Exam 5: Version InfoRadius and Tibia Measurements by HR-pQCT, Offspring, New Offspring Spouse after Offspring Exam 9: Coding ManualRadius and Tibia Measurements by HR-pQCT, Offspring, New Offspring Spouse after Offspring Exam 9: DescriptionRadius and Tibia Measurements by HR-pQCT, Offspring, New Offspring Spouse after Offspring Exam 9: ProtocolRadius and Tibia Measurements by HR-pQCT, Offspring, New Offspring Spouse after Offspring Exam 9: Version InfoDiastolic Function (by Doppler), Offspring Exam 8, Generation 3 Exam 1, Omni 1 Exam 3, Omni 2 Exam 1: Coding ManualDiastolic Function (by Doppler), Offspring Exam 8, Generation 3 Exam 1, Omni 1 Exam 3, Omni 2 Exam 1: DescriptionDiastolic Function (by Doppler), Offspring Exam 8, Generation 3 Exam 1, Omni 1 Exam 3, Omni 2 Exam 1: ProtocolDiastolic Function (by Doppler), Offspring Exam 8, Generation 3 Exam 1, Omni 1 Exam 3, Omni 2 Exam 1: Version InfoBrain MRI: Additional Information, All Cohorts 1999-2015: Coding ManualBrain MRI: Additional Information, All Cohorts 1999-2015: DescriptionBrain MRI: Additional Information, All Cohorts 1999-2015: Version InfoBrain MRI: Additional Information, All Cohorts 1999-2015: Version InfoMenopause, Hormone Replacement and Ovary Removal, New Offspring Spouse through Exam 2: Annotated FormMenopause, Hormone Replacement and Ovary Removal, New Offspring Spouse through Exam 2: Coding ManualMenopause, Hormone Replacement and Ovary Removal, New Offspring Spouse through Exam 2: DescriptionMenopause, Hormone Replacement and Ovary Removal, New Offspring Spouse through Exam 2: ProtocolMenopause, Hormone Replacement and Ovary Removal, New Offspring Spouse through Exam 2: Version InfoMenopause, Hormone Replacement and Ovary Removal, Generation 3 Cohort through Exam 2: Version InfoMenopause, Hormone Replacement and Ovary Removal, Omni 2 Cohort through Exam 2: Annotated FormMenopause, Hormone Replacement and Ovary Removal, Omni 2 Cohort through Exam 2: Coding ManualMenopause, Hormone Replacement and Ovary Removal, Omni 2 Cohort through Exam 2: DescriptionMenopause, Hormone Replacement and Ovary Removal, Omni 2 Cohort through Exam 2: ProtocolMenopause, Hormone Replacement and Ovary Removal, Omni 2 Cohort through Exam 2: Version InfoMenopause, Hormone Replacement and Ovary Removal, Omni 1 Cohort through Exam 3: Annotated FormMenopause, Hormone Replacement and Ovary Removal, Omni 1 Cohort through Exam 3: Coding ManualMenopause, Hormone Replacement and Ovary Removal, Omni 1 Cohort through Exam 3: DescriptionMenopause, Hormone Replacement and Ovary Removal, Omni 1 Cohort through Exam 3: ProtocolMenopause, Hormone Replacement and Ovary Removal, Omni 1 Cohort through Exam 3: Version InfoSurvival and Follow-up Status for Stroke, All Cohorts through 2021: Coding ManualSurvival and Follow-up Status for Stroke, All Cohorts through 2021: DescriptionSurvival and Follow-up Status for Stroke, All Cohorts through 2021: ProtocolSurvival and Follow-up Status for Stroke, All Cohorts through 2021: Version InfoSurvival and Follow-up Status for Stroke/TIA, All Cohorts through 2021: Coding ManualSurvival and Follow-up Status for Stroke/TIA, All Cohorts through 2021: DescriptionSurvival and Follow-up Status for Stroke/TIA, All Cohorts through 2021: ProtocolSurvival and Follow-up Status for Stroke/TIA, All Cohorts through 2021: Version InfoVenous Thrombosis Review, All Cohorts through 2020: Annotated FormVenous Thrombosis Review, All Cohorts through 2020: Coding ManualVenous Thrombosis Review, All Cohorts through 2020: DescriptionVenous Thrombosis Review, All Cohorts through 2020: ProtocolVenous Thrombosis Review, All Cohorts through 2020: Version InfoFrequently Used Cardiovascular Risk Factors (a.k.a. "Workthru"), Gen 3, NOS, Omni 2 Cohorts Exams 1-3: Coding ManualFrequently Used Cardiovascular Risk Factors (a.k.a. "Workthru"), Gen 3, NOS, Omni 2 Cohorts Exams 1-3: DescriptionFrequently Used Cardiovascular Risk Factors (a.k.a. "Workthru"), Gen 3, NOS, Omni 2 Cohorts Exams 1-3: ProtocolFrequently Used Cardiovascular Risk Factors (a.k.a. "Workthru"), Gen 3, NOS, Omni 2 Cohorts Exams 1-3: Version InfoProposal and Approach for dbGaP and NSRR ID LinkingInterstitial Lung Abnormalities (acquired from round 2 CT scans), Offspring and Generation 3 Cohorts 9/2008 to 3/2011: Version InfoHip Shape Modes (HSM) Derived from DXA Scan Using Active Shape Modeling, Original Cohort Exam 22, Offspring Cohort Exams 6, 7: Coding ManualHip Shape Modes (HSM) Derived from DXA Scan Using Active Shape Modeling, Original Cohort Exam 22, Offspring Cohort Exams 6, 7: DescriptionHip Shape Modes (HSM) Derived from DXA Scan Using Active Shape Modeling, Original Cohort Exam 22, Offspring Cohort Exams 6, 7: ProtocolHip Shape Modes (HSM) Derived from DXA Scan Using Active Shape Modeling, Original Cohort Exam 22, Offspring Cohort Exams 6, 7: Version InfoDietary Guidelines Adherence Index (DGAI) 2010, Generation 3 Cohort Exam1: Coding ManualDietary Guidelines Adherence Index (DGAI) 2010, Generation 3 Cohort Exam1: DescriptionDietary Guidelines Adherence Index (DGAI) 2010, Generation 3 Cohort Exam1: ProtocolDietary Guidelines Adherence Index (DGAI) 2010, Generation 3 Cohort Exam1: Version InfoDietary Guidelines Adherence Index (DGAI) 2010, Generation 3 Cohort Exam 2: Coding ManualDietary Guidelines Adherence Index (DGAI) 2010, Generation 3 Cohort Exam 2: DescriptionDietary Guidelines Adherence Index (DGAI) 2010, Generation 3 Cohort Exam 2: ProtocolDietary Guidelines Adherence Index (DGAI) 2010, Generation 3 Cohort Exam 2: Version InfoDietary Guidelines Adherence Index (DGAI) 2010, Offspring Cohort Exam 5: Coding ManualDietary Guidelines Adherence Index (DGAI) 2010, Offspring Cohort Exam 5: DescriptionDietary Guidelines Adherence Index (DGAI) 2010, Offspring Cohort Exam 5: ProtocolDietary Guidelines Adherence Index (DGAI) 2010, Offspring Cohort Exam 5: Version InfoDietary Guidelines Adherence Index (DGAI) 2010, Offspring Cohort Exam 7: Coding ManualDietary Guidelines Adherence Index (DGAI) 2010, Offspring Cohort Exam 7: DescriptionDietary Guidelines Adherence Index (DGAI) 2010, Offspring Cohort Exam 7: ProtocolDietary Guidelines Adherence Index (DGAI) 2010, Offspring Cohort Exam 7: Version InfoDietary Guidelines Adherence Index (DGAI) 2010, Offspring Cohort Exam 8: Coding ManualDietary Guidelines Adherence Index (DGAI) 2010, Offspring Cohort Exam 8: DescriptionDietary Guidelines Adherence Index (DGAI) 2010, Offspring Cohort Exam 8: ProtocolDietary Guidelines Adherence Index (DGAI) 2010, Offspring Cohort Exam 8: Version InfoDiabetes (Derived), Generation 3, New Offspring Spouse, Omni 2 Cohorts Exams 1-3: Coding ManualDiabetes (Derived), Generation 3, New Offspring Spouse, Omni 2 Cohorts Exams 1-3: DescriptionDiabetes (Derived), Generation 3, New Offspring Spouse, Omni 2 Cohorts Exams 1-3: ProtocolDiabetes (Derived), Generation 3, New Offspring Spouse, Omni 2 Cohorts Exams 1-3: Version InfoDiabetes (derived), Offspring Exams 1-10, Omni 1 Exams 1-5: DescriptionDiabetes (derived), Offspring Exams 1-10, Omni 1 Exams 1-5: ProtocolDiabetes (derived), Offspring Exams 1-10, Omni 1 Exams 1-5: Version InfoDiabetes (derived), Original Cohort Exam 1 - Exam 28: DescriptionDiabetes (derived), Original Cohort Exam 1 - Exam 28: Version InfoCongestive Heart Failure (CHF) Event Review (Includes Diagnostic Testing Criteria), All Cohorts through 2016: Annotated FormCongestive Heart Failure (CHF) Event Review (Includes Diagnostic Testing Criteria), All Cohorts through 2016: Coding ManualCongestive Heart Failure (CHF) Event Review (Includes Diagnostic Testing Criteria), All Cohorts through 2016: DescriptionCongestive Heart Failure (CHF) Event Review (Includes Diagnostic Testing Criteria), All Cohorts through 2016: ProtocolCongestive Heart Failure (CHF) Event Review (Includes Diagnostic Testing Criteria), All Cohorts through 2016: Version InfoFrequently Used Cardiovascular Risk Factors (a.k.a. Workthru), Original Cohort Exam 1 - Exam 32: Coding ManualFrequently Used Cardiovascular Risk Factors (a.k.a. Workthru), Original Cohort Exam 1 - Exam 32: DescriptionFrequently Used Cardiovascular Risk Factors (a.k.a. Workthru), Original Cohort Exam 1 - Exam 32: ProtocolFrequently Used Cardiovascular Risk Factors (a.k.a. Workthru), Original Cohort Exam 1 - Exam 32: Version InfoStructural Brain MRI (Method 3), All Cohorts through 2019: Coding ManualStructural Brain MRI (Method 3), All Cohorts through 2019: DescriptionStructural Brain MRI (Method 3), All Cohorts through 2019: ProtocolStructural Brain MRI (Method 3), All Cohorts through 2019: Version InfoBioactive Lipids Eicosanoids Dataset 1 Lab Assay (blood), Offspring Cohort Exam 8: Coding ManualBioactive Lipids Eicosanoids Dataset 1 Lab Assay (blood), Offspring Cohort Exam 8: DescriptionBioactive Lipids Eicosanoids Dataset 1 Lab Assay (blood), Offspring Cohort Exam 8: ProtocolBioactive Lipids Eicosanoids Dataset 1 Lab Assay (blood), Offspring Cohort Exam 8: Version InfoBioactive Lipids Eicosanoids Dataset 1 Internal Standards Lab Assay (blood), Offspring Cohort Exam 8: Coding ManualBioactive Lipids Eicosanoids Dataset 1 Internal Standards Lab Assay (blood), Offspring Cohort Exam 8: DescriptionBioactive Lipids Eicosanoids Dataset 1 Internal Standards Lab Assay (blood), Offspring Cohort Exam 8: ProtocolBioactive Lipids Eicosanoids Dataset 1 Internal Standards Lab Assay (blood), Offspring Cohort Exam 8: Version InfoGlials sCD14 and YKL-40 Lab Assay (blood), Offspring Exam 9, Omni 1 Exam 4: Coding ManualGlials sCD14 and YKL-40 Lab Assay (blood), Offspring Exam 9, Omni 1 Exam 4: DescriptionGlials sCD14 and YKL-40 Lab Assay (blood), Offspring Exam 9, Omni 1 Exam 4: ProtocolGlials sCD14 and YKL-40 Lab Assay (blood), Offspring Exam 9, Omni 1 Exam 4: Version InfoIGF-1 and IGFBP-3, Generation 3 Exam 1, Omni 2 Exam 1: Coding ManualIGF-1 and IGFBP-3, Generation 3 Exam 1, Omni 2 Exam 1: DescriptionIGF-1 and IGFBP-3, Generation 3 Exam 1, Omni 2 Exam 1: ProtocolIGF-1 and IGFBP-3, Generation 3 Exam 1, Omni 2 Exam 1: Version InfoFasting Lipid Database, Original Cohort Exams 10-12: Coding ManualFasting Lipid Database, Original Cohort Exams 10-12: DescriptionFasting Lipid Database, Original Cohort Exams 10-12: ProtocolFasting Lipid Database, Original Cohort Exams 10-12: Version InfoRed Blood Cell Fatty Acid Proportions Expanded, Offspring Exams 7-8, Omni 1 Exam 3: Coding ManualRed Blood Cell Fatty Acid Proportions Expanded, Offspring Exams 7-8, Omni 1 Exam 3: DescriptionRed Blood Cell Fatty Acid Proportions Expanded, Offspring Exams 7-8, Omni 1 Exam 3: Protocol 1Red Blood Cell Fatty Acid Proportions Expanded, Offspring Exams 7-8, Omni 1 Exam 3: Protocol 2Red Blood Cell Fatty Acid Proportions Expanded, Offspring Exams 7-8, Omni 1 Exam 3: Version InfoTau (Lab Assay: Blood), Original Exam 28, Offspring Exam 8, Gen 3 Exam 2, NOS Exam 2, Omni 1 Exam 3, Omni 2 Exam 2: Coding ManualTau (Lab Assay: Blood), Original Exam 28, Offspring Exam 8, Gen 3 Exam 2, NOS Exam 2, Omni 1 Exam 3, Omni 2 Exam 2: DescriptionTau (Lab Assay: Blood), Original Exam 28, Offspring Exam 8, Gen 3 Exam 2, NOS Exam 2, Omni 1 Exam 3, Omni 2 Exam 2: Protocol 1Tau (Lab Assay: Blood), Original Exam 28, Offspring Exam 8, Gen 3 Exam 2, NOS Exam 2, Omni 1 Exam 3, Omni 2 Exam 2: Protocol 2Tau (Lab Assay: Blood), Original Exam 28, Offspring Exam 8, Gen 3 Exam 2, NOS Exam 2, Omni 1 Exam 3, Omni 2 Exam 2: Version InfoCES-D Self Administered, Original 2006-2009, Offspring 2005-2009, Omni 1 2006-2008: Annotated FormCES-D Self Administered, Original 2006-2009, Offspring 2005-2009, Omni 1 2006-2008: Coding ManualCES-D Self Administered, Original 2006-2009, Offspring 2005-2009, Omni 1 2006-2008: DescriptionCES-D Self Administered, Original 2006-2009, Offspring 2005-2009, Omni 1 2006-2008: Version InfoAtrial Fibrillation/Flutter Cases Reviewed Through 2022 (includes related sinus rhythm cases), All Cohorts through 2022: Annotated Form Follow UpCumulative Race and Ethnicity, All Cohorts 1994-2011: Annotated FormCumulative Race and Ethnicity, All Cohorts 1994-2011: Coding ManualCumulative Race and Ethnicity, All Cohorts 1994-2011: DescriptionCumulative Race and Ethnicity, All Cohorts 1994-2011: ProtocolCumulative Race and Ethnicity, All Cohorts 1994-2011: Version InfoFrequently Used Cardiovascular Risk Factors (a.k.a. Workthru), Offspring Exams 1-10, Omni 1 Exams 1-5: Coding ManualFrequently Used Cardiovascular Risk Factors (a.k.a. Workthru), Offspring Exams 1-10, Omni 1 Exams 1-5: DescriptionFrequently Used Cardiovascular Risk Factors (a.k.a. Workthru), Offspring Exams 1-10, Omni 1 Exams 1-5: ProtocolFrequently Used Cardiovascular Risk Factors (a.k.a. Workthru), Offspring Exams 1-10, Omni 1 Exams 1-5: Version InfoFramingham SHARe Osteoporosis Study - Bone Mineral Density through 2009: Version InfoExam: Interview, Measurements, ECG, Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: Annotated Form 1Exam: Interview, Measurements, ECG, Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: Annotated Form 2Exam: Interview, Measurements, ECG, Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: Coding ManualExam: Interview, Measurements, ECG, Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: DescriptionExam: Interview, Measurements, ECG, Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: ProtocolExam: Interview, Measurements, ECG, Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: Version InfoFramingham Heart Study File Naming Convention for Phenotypic DatasetsAldosterone - Lab Assay (Blood), Offspring Exam 6, Omni 1 Exam 1: DescriptionAldosterone - Lab Assay (Blood), Offspring Exam 6, Omni 1 Exam 1: Version InfoAngiopoietin-2 (ANG2) and TIE2 (TIE2) - Lab Assay (blood), Gen 3 Exam 1, Omni 2 Exam 1: DescriptionAngiopoietin-2 (ANG2) and TIE2 (TIE2) - Lab Assay (blood), Gen 3 Exam 1, Omni 2 Exam 1: Version InfoSerum and Urinary Cortisol and Creatinine (Lab assay: blood and urine), Offspring Exams 5-6, Omni 1 Exam 1: DescriptionSerum and Urinary Cortisol and Creatinine (Lab assay: blood and urine), Offspring Exams 5-6, Omni 1 Exam 1: Version InfoDiabetes Related Assays - Lab Assay (Blood), Offspring Exams 5-7, Omni 1 Exams 1-2: ChartDiabetes Related Assays - Lab Assay (Blood), Offspring Exams 5-7, Omni 1 Exams 1-2: Coding ManualDiabetes Related Assays - Lab Assay (Blood), Offspring Exams 5-7, Omni 1 Exams 1-2: DescriptionDiabetes Related Assays - Lab Assay (Blood), Offspring Exams 5-7, Omni 1 Exams 1-2: ProtocolDiabetes Related Assays - Lab Assay (Blood), Offspring Exams 5-7, Omni 1 Exams 1-2: Version InfoExam Lab Assays, Gen 3 Exam 3, New Offspring Spouse Exam 3, Omni 2 Exam 3: Coding ManualExam Lab Assays, Gen 3 Exam 3, New Offspring Spouse Exam 3, Omni 2 Exam 3: DescriptionExam Lab Assays, Gen 3 Exam 3, New Offspring Spouse Exam 3, Omni 2 Exam 3: ProtocolExam Lab Assays, Gen 3 Exam 3, New Offspring Spouse Exam 3, Omni 2 Exam 3: Version InfoTestosterone and Serum Sex Hormone Binding Globulin, Offspring Exam 7, Gen 3 Exam 1, Omni 2 Exam 1: DescriptionTestosterone and Serum Sex Hormone Binding Globulin, Offspring Exam 7, Gen 3 Exam 1, Omni 2 Exam 1: Version InfoProteomic Biomarkers in the Setting of Heart Failure, Offspring Exam 7: Coding ManualProteomic Biomarkers in the Setting of Heart Failure, Offspring Exam 7: DescriptionProteomic Biomarkers in the Setting of Heart Failure, Offspring Exam 7: Protocol 1Proteomic Biomarkers in the Setting of Heart Failure, Offspring Exam 7: Protocol 2Proteomic Biomarkers in the Setting of Heart Failure, Offspring Exam 7: Version InfoRT-qPCR Gene Expression Data Set (Runs 1-6) - Lab Assay (Blood), Offspring Exam 8, Omni 1 Exam 3: Coding ManualRT-qPCR Gene Expression Data Set (Runs 1-6) - Lab Assay (Blood), Offspring Exam 8, Omni 1 Exam 3: DescriptionRT-qPCR Gene Expression Data Set (Runs 1-6) - Lab Assay (Blood), Offspring Exam 8, Omni 1 Exam 3: Protocol 1RT-qPCR Gene Expression Data Set (Runs 1-6) - Lab Assay (Blood), Offspring Exam 8, Omni 1 Exam 3: Protocol 2RT-qPCR Gene Expression Data Set (Runs 1-6) - Lab Assay (Blood), Offspring Exam 8, Omni 1 Exam 3: Version InfoLab Assay: Sclerostin (Lab assay: blood), Generation 3 Exam 3, Omni 2 Exam 3: Coding ManualLab Assay: Sclerostin (Lab assay: blood), Generation 3 Exam 3, Omni 2 Exam 3: DescriptionLab Assay: Sclerostin (Lab assay: blood), Generation 3 Exam 3, Omni 2 Exam 3: ProtocolLab Assay: Sclerostin (Lab assay: blood), Generation 3 Exam 3, Omni 2 Exam 3: Version InfoSerum RANKL (Blood Lab Assay), Offspring Exam 7, Omni 1 Exam 2: DescriptionSerum RANKL (Blood Lab Assay), Offspring Exam 7, Omni 1 Exam 2: ProtocolSerum RANKL (Blood Lab Assay), Offspring Exam 7, Omni 1 Exam 2: Version InfoAverage Telomere Length Results, Offspring Exam 7, Gen 3 Exam 1: Annotated FormAverage Telomere Length Results, Offspring Exam 7, Gen 3 Exam 1: Coding ManualAverage Telomere Length Results, Offspring Exam 7, Gen 3 Exam 1: DescriptionAverage Telomere Length Results, Offspring Exam 7, Gen 3 Exam 1: ProtocolAverage Telomere Length Results, Offspring Exam 7, Gen 3 Exam 1: Version InfoBone Mineral Density Hip and Spine, Omni 2 Cohort 10/09-3/11: Coding ManualBone Mineral Density Hip and Spine, Omni 2 Cohort 10/09-3/11: DescriptionBone Mineral Density Hip and Spine, Omni 2 Cohort 10/09-3/11: ProtocolBone Mineral Density Hip and Spine, Omni 2 Cohort 10/09-3/11: Version InfoEchocardiography, Offspring Exam 6, Omni 1 Exam 1: DescriptionEchocardiography, Offspring Exam 6, Omni 1 Exam 1: Version InfoEchocardiography: Cardiac Strain, Omni 1 Exam 3: Coding ManualEchocardiography: Cardiac Strain, Omni 1 Exam 3: DescriptionEchocardiography: Cardiac Strain, Omni 1 Exam 3: ProtocolEchocardiography: Cardiac Strain, Omni 1 Exam 3: Version InfoDoppler, Aortic Valve and Stenosis by Echocardiography, Gen 3 Exam 1, NOS Exam 1, Omni 2 Exam 1: Annotated FormDoppler, Aortic Valve and Stenosis by Echocardiography, Gen 3 Exam 1, NOS Exam 1, Omni 2 Exam 1: Coding ManualDoppler, Aortic Valve and Stenosis by Echocardiography, Gen 3 Exam 1, NOS Exam 1, Omni 2 Exam 1: DescriptionDoppler, Aortic Valve and Stenosis by Echocardiography, Gen 3 Exam 1, NOS Exam 1, Omni 2 Exam 1: ProtocolDoppler, Aortic Valve and Stenosis by Echocardiography, Gen 3 Exam 1, NOS Exam 1, Omni 2 Exam 1: Version InfoDoppler, Aortic Valve and Stenosis by Echocardiography, Offspring Exam 8, Omni 1 Exam 3: Annotated FormDoppler, Aortic Valve and Stenosis by Echocardiography, Offspring Exam 8, Omni 1 Exam 3: Coding ManualDoppler, Aortic Valve and Stenosis by Echocardiography, Offspring Exam 8, Omni 1 Exam 3: DescriptionDoppler, Aortic Valve and Stenosis by Echocardiography, Offspring Exam 8, Omni 1 Exam 3: ProtocolDoppler, Aortic Valve and Stenosis by Echocardiography, Offspring Exam 8, Omni 1 Exam 3: Version InfoVibration-controlled Transient Elastography (Fibroscan) of the Liver, Gen 3 Exam 3, Omni 2 Exam 3, NOS Exam 3: Coding ManualVibration-controlled Transient Elastography (Fibroscan) of the Liver, Gen 3 Exam 3, Omni 2 Exam 3, NOS Exam 3: DescriptionVibration-controlled Transient Elastography (Fibroscan) of the Liver, Gen 3 Exam 3, Omni 2 Exam 3, NOS Exam 3: ProtocolVibration-controlled Transient Elastography (Fibroscan) of the Liver, Gen 3 Exam 3, Omni 2 Exam 3, NOS Exam 3: Version InfoCardiac MRI Abdominal Fat, Offspring, Omni 1 Cohorts 2002-2006: DescriptionCardiac MRI Abdominal Fat, Offspring, Omni 1 Cohorts 2002-2006: Version InfoCardiac MRI Epicardial Fat, Offspring, Omni 1 Cohorts 2002-2006: DescriptionCardiac MRI Epicardial Fat, Offspring, Omni 1 Cohorts 2002-2006: Version InfoCardiac MRI Left Ventricular Hypertrophy, Offspring, Omni 1 Cohorts 2002-2006: DescriptionCardiac MRI Left Ventricular Hypertrophy, Offspring, Omni 1 Cohorts 2002-2006: Version InfoCardiac MRI Wall Motion Abnormality, Offspring, Omni 1 Cohorts 2002-2006: DescriptionCardiac MRI Wall Motion Abnormality, Offspring, Omni 1 Cohorts 2002-2006: Version InfoPhysical Function: Hand Grip, Measured Walks, Chair Stands, Original, Offspring, Omni 1 Cohorts through 2005: DescriptionPhysical Function: Hand Grip, Measured Walks, Chair Stands, Original, Offspring, Omni 1 Cohorts through 2005: ProtocolPhysical Function: Hand Grip, Measured Walks, Chair Stands, Original, Offspring, Omni 1 Cohorts through 2005: Version Info Peripheral Arterial Tonometry (Fingertip), Original Exam 28, Gen 3 Exam 1, NOS Exam 1, Omni 2 Exam 1: DescriptionPeripheral Arterial Tonometry (Fingertip), Original Exam 28, Gen 3 Exam 1, NOS Exam 1, Omni 2 Exam 1: Version InfoPeripheral Arterial Tone (PAT), Offspring Exam 8, Omni 1 Exam 3: DescriptionPeripheral Arterial Tone (PAT), Offspring Exam 8, Omni 1 Exam 3: Version InfoPET Brain Scan, Offspring, Gen 3, Omni 1 Cohorts 2015-2022: Coding ManualPET Brain Scan, Offspring, Gen 3, Omni 1 Cohorts 2015-2022: DescriptionPET Brain Scan, Offspring, Gen 3, Omni 1 Cohorts 2015-2022: ProtocolPET Brain Scan, Offspring, Gen 3, Omni 1 Cohorts 2015-2022: Version InfoPET Brain Scan with Partial Volume Correction, Offspring, Gen 3, Omni 1 Cohorts 9/2015-6/2022: Coding ManualPET Brain Scan with Partial Volume Correction, Offspring, Gen 3, Omni 1 Cohorts 9/2015-6/2022: DescriptionPET Brain Scan with Partial Volume Correction, Offspring, Gen 3, Omni 1 Cohorts 9/2015-6/2022: ProtocolPET Brain Scan with Partial Volume Correction, Offspring, Gen 3, Omni 1 Cohorts 9/2015-6/2022: Version Info Pulmonary Function Test, Omni 1 Cohort Exam 1: Coding ManualPulmonary Function Test, Omni 1 Cohort Exam 1: DescriptionPulmonary Function Test, Omni 1 Cohort Exam 1: ProtocolPulmonary Function Test, Omni 1 Cohort Exam 1: Version InfoPulmonary Function Test, Omni 1 Cohort Exam 2: Coding ManualPulmonary Function Test, Omni 1 Cohort Exam 2: DescriptionPulmonary Function Test, Omni 1 Cohort Exam 2: ProtocolPulmonary Function Test, Omni 1 Cohort Exam 2: Version InfoPulmonary Function Test (PFT) Pre Albuterol, Omni 1 Cohort Exam 3: Coding ManualPulmonary Function Test (PFT) Pre Albuterol, Omni 1 Cohort Exam 3: DescriptionPulmonary Function Test (PFT) Pre Albuterol, Omni 1 Cohort Exam 3: ProtocolPulmonary Function Test (PFT) Pre Albuterol, Omni 1 Cohort Exam 3: Version InfoPhysical Activity Monitor (Actical®), Gen 3 Exam 3, New Offspring Spouse Exam 3, Omni 2 Exam 3: Coding Manual 1Physical Activity Monitor (Actical®), Gen 3 Exam 3, New Offspring Spouse Exam 3, Omni 2 Exam 3: Coding Manual 2 Part 1Physical Activity Monitor (Actical®), Gen 3 Exam 3, New Offspring Spouse Exam 3, Omni 2 Exam 3: DescriptionPhysical Activity Monitor (Actical®), Gen 3 Exam 3, New Offspring Spouse Exam 3, Omni 2 Exam 3: ProtocolPhysical Activity Monitor (Actical®), Gen 3 Exam 3, New Offspring Spouse Exam 3, Omni 2 Exam 3: Version InfoLarge Artery Tonometry, Generation 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: DescriptionLarge Artery Tonometry, Generation 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: Protocol 2Large Artery Tonometry, Generation 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: Protocol 3Large Artery Tonometry, Generation 3 Exam 1, New Offspring Spouse Exam 1, Omni 2 Exam 1: Version InfoLarge Artery Tonometry, Generation 3 Exam 2, Omni 2 Exam 2, New Offspring Spouse Exam 2: Coding ManualLarge Artery Tonometry, Generation 3 Exam 2, Omni 2 Exam 2, New Offspring Spouse Exam 2: DescriptionLarge Artery Tonometry, Generation 3 Exam 2, Omni 2 Exam 2, New Offspring Spouse Exam 2: Protocol 1Large Artery Tonometry, Generation 3 Exam 2, Omni 2 Exam 2, New Offspring Spouse Exam 2: Protocol 2Large Artery Tonometry, Generation 3 Exam 2, Omni 2 Exam 2, New Offspring Spouse Exam 2: Version InfoLarge Artery Tonometry, Offspring Exam 7, Omni 1 Exam 2: DescriptionLarge Artery Tonometry, Offspring Exam 7, Omni 1 Exam 2: Protocol 2Large Artery Tonometry, Offspring Exam 7, Omni 1 Exam 2: Version InfoLarge Artery Tonometry, Offspring Exam 8, Omni 1 Exam 3: Coding ManualLarge Artery Tonometry, Offspring Exam 8, Omni 1 Exam 3: DescriptionLarge Artery Tonometry, Offspring Exam 8, Omni 1 Exam 3: Protocol 1Large Artery Tonometry, Offspring Exam 8, Omni 1 Exam 3: Protocol 2Large Artery Tonometry, Offspring Exam 8, Omni 1 Exam 3: Protocol 3Large Artery Tonometry, Offspring Exam 8, Omni 1 Exam 3: Version InfoLarge Artery Tonometry, Offspring Exam 9, Omni 1 Exam 4: Coding ManualLarge Artery Tonometry, Offspring Exam 9, Omni 1 Exam 4: DescriptionLarge Artery Tonometry, Offspring Exam 9, Omni 1 Exam 4: Protocol 1Large Artery Tonometry, Offspring Exam 9, Omni 1 Exam 4: Protocol 2Large Artery Tonometry, Offspring Exam 9, Omni 1 Exam 4: Version InfoLarge Artery Tonometry, Original Cohort Exam 26: DescriptionLarge Artery Tonometry, Original Cohort Exam 26: Protocol 2Large Artery Tonometry, Original Cohort Exam 26: Version InfoLarge Artery Tonometry, Original Cohort Exam 28: Coding ManualLarge Artery Tonometry, Original Cohort Exam 28: DescriptionLarge Artery Tonometry, Original Cohort Exam 28: Protocol 1Large Artery Tonometry, Original Cohort Exam 28: Protocol 2Large Artery Tonometry, Original Cohort Exam 28: Version InfoBirth Year of Study Participants in Five Year Intervals, All Cohorts: DescriptionBirth Year of Study Participants in Five Year Intervals, All Cohorts: Version InfoCABG and Heart Valve Procedure Chart Review, Original, Offspring, Omni 1 Cohorts through 10/07: DescriptionCABG and Heart Valve Procedure Chart Review, Original, Offspring, Omni 1 Cohorts through 10/07: Version InfoCardiac MRI Scan Dates, Offspring and Omni 1 Cohorts 2002-2006: Coding ManualCardiac MRI Scan Dates, Offspring and Omni 1 Cohorts 2002-2006: DescriptionCardiac MRI Scan Dates, Offspring and Omni 1 Cohorts 2002-2006: ProtocolCardiac MRI Scan Dates, Offspring and Omni 1 Cohorts 2002-2006: Version InfoCognitive Test Scores: CERAD, Stroop, AD8 and MOCA, Offspring, Gen 3, NOS, Omni 1, Omni 2 Cohorts 2015-2022: Annotated FormCognitive Test Scores: CERAD, Stroop, AD8 and MOCA, Offspring, Gen 3, NOS, Omni 1, Omni 2 Cohorts 2015-2022: Coding ManualCognitive Test Scores: CERAD, Stroop, AD8 and MOCA, Offspring, Gen 3, NOS, Omni 1, Omni 2 Cohorts 2015-2022: DescriptionCognitive Test Scores: CERAD, Stroop, AD8 and MOCA, Offspring, Gen 3, NOS, Omni 1, Omni 2 Cohorts 2015-2022: ProtocolCognitive Test Scores: CERAD, Stroop, AD8 and MOCA, Offspring, Gen 3, NOS, Omni 1, Omni 2 Cohorts 2015-2022: Version InfoFood Frequency Questionnaire and Derived Variables, New Offspring Spouse Exam 1: Annotated FormFood Frequency Questionnaire and Derived Variables, New Offspring Spouse Exam 1: Coding ManualFood Frequency Questionnaire and Derived Variables, New Offspring Spouse Exam 1: DescriptionFood Frequency Questionnaire and Derived Variables, New Offspring Spouse Exam 1: ProtocolFood Frequency Questionnaire and Derived Variables, New Offspring Spouse Exam 1: Version InfoFood Frequency Questionnaire and Derived Variables, Generation 3 Exam 1: Version InfoFood Frequency Questionnaire and Derived Variables, Omni 2 Exam 1: Annotated FormFood Frequency Questionnaire and Derived Variables, Omni 2 Exam 1: Coding ManualFood Frequency Questionnaire and Derived Variables, Omni 2 Exam 1: DescriptionFood Frequency Questionnaire and Derived Variables, Omni 2 Exam 1: ProtocolFood Frequency Questionnaire and Derived Variables, Omni 2 Exam 1: Version InfoFood Frequency Questionnaire and Derived Variables, Omni 1 Exam 3: Annotated FormFood Frequency Questionnaire and Derived Variables, Omni 1 Exam 3: Coding ManualFood Frequency Questionnaire and Derived Variables, Omni 1 Exam 3: DescriptionFood Frequency Questionnaire and Derived Variables, Omni 1 Exam 3: Protocol 2Food Frequency Questionnaire and Derived Variables, Omni 1 Exam 3: Version InfoFood Frequency Questionnaire with Derived Variables, Offspring Exam 9, Omni 1 Exam 4: Annotated FormFood Frequency Questionnaire with Derived Variables, Offspring Exam 9, Omni 1 Exam 4: Coding ManualFood Frequency Questionnaire with Derived Variables, Offspring Exam 9, Omni 1 Exam 4: DescriptionFood Frequency Questionnaire with Derived Variables, Offspring Exam 9, Omni 1 Exam 4: ProtocolFood Frequency Questionnaire with Derived Variables, Offspring Exam 9, Omni 1 Exam 4: Version InfoMedications Reported at Exam (ATC coded), Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: Annotated FormMedications Reported at Exam (ATC coded), Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: Coding Manual SupplementMedications Reported at Exam (ATC coded), Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: Coding ManualMedications Reported at Exam (ATC coded), Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: DescriptionMedications Reported at Exam (ATC coded), Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: ProtocolMedications Reported at Exam (ATC coded), Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: Version InfoMedications Reported at Clinic Exam (ATC coded), Original Cohort Exam 32: Annotated FormMedications Reported at Clinic Exam (ATC coded), Original Cohort Exam 32: Coding ManualMedications Reported at Clinic Exam (ATC coded), Original Cohort Exam 32: Coding Manual SupplementMedications Reported at Clinic Exam (ATC coded), Original Cohort Exam 32: DescriptionMedications Reported at Clinic Exam (ATC coded), Original Cohort Exam 32: ProtocolMedications Reported at Clinic Exam (ATC coded), Original Cohort Exam 32: Version InfoQualitative Errors in Neuropsychological Exams, All Cohorts 2005-2021: Coding ManualQualitative Errors in Neuropsychological Exams, All Cohorts 2005-2021: DescriptionQualitative Errors in Neuropsychological Exams, All Cohorts 2005-2021: Protocol 1Qualitative Errors in Neuropsychological Exams, All Cohorts 2005-2021: Version InfoPhysical Activity Monitor (Actical®), Gen 3 Exam 3, New Offspring Spouse Exam 3, Omni 2 Exam 3: Coding Manual 2 Part 2Food Frequency, Original Cohort, Exam 20: Version InfoFood Frequency, Original Cohort, Exam 21: Version InfoFood Frequency, Original Cohort, Exam 22: Version InfoGlials - GFAP - Lab Assay (blood), Offspring Cohort Exam 9, Omni Cohort 1 Exam 4: Coding ManualGlials - GFAP - Lab Assay (blood), Offspring Cohort Exam 9, Omni Cohort 1 Exam 4: DescriptionGlials - GFAP - Lab Assay (blood), Offspring Cohort Exam 9, Omni Cohort 1 Exam 4: Protocol 1Glials - GFAP - Lab Assay (blood), Offspring Cohort Exam 9, Omni Cohort 1 Exam 4: Protocol 2Glials - GFAP - Lab Assay (blood), Offspring Cohort Exam 9, Omni Cohort 1 Exam 4: Version InfoInflammatory Markers (Lab Assay: Blood and Urine), Gen 3 Exam 1, NOS Exam 1, Omni 2 Exam 1: Coding ManualInflammatory Markers (Lab Assay: Blood and Urine), Gen 3 Exam 1, NOS Exam 1, Omni 2 Exam 1: DescriptionInflammatory Markers (Lab Assay: Blood and Urine), Gen 3 Exam 1, NOS Exam 1, Omni 2 Exam 1: ProtocolInflammatory Markers (Lab Assay: Blood and Urine), Gen 3 Exam 1, NOS Exam 1, Omni 2 Exam 1: Version InfoInflammatory Markers (Lab Assay: Blood and Urine), Offspring Exam 7, Omni 1 Exam 2: Coding ManualInflammatory Markers (Lab Assay: Blood and Urine), Offspring Exam 7, Omni 1 Exam 2: DescriptionInflammatory Markers (Lab Assay: Blood and Urine), Offspring Exam 7, Omni 1 Exam 2: ProtocolInflammatory Markers (Lab Assay: Blood and Urine), Offspring Exam 7, Omni 1 Exam 2: Version InfoInflammatory Markers (Lab Assay: Blood and Urine), Offspring Exam 8, Omni 1 Exam 3: Coding ManualInflammatory Markers (Lab Assay: Blood and Urine), Offspring Exam 8, Omni 1 Exam 3: DescriptionInflammatory Markers (Lab Assay: Blood and Urine), Offspring Exam 8, Omni 1 Exam 3: ProtocolInflammatory Markers (Lab Assay: Blood and Urine), Offspring Exam 8, Omni 1 Exam 3: Version InfoCPET Metabolomics C18 Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: Coding ManualCPET Metabolomics C18 Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: DescriptionCPET Metabolomics C18 Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: Protocol 1CPET Metabolomics C18 Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: Protocol 2CPET Metabolomics C18 Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: Protocol 3CPET Metabolomics C18 Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: Version InfoCPET Metabolomics C18 Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: Coding ManualCPET Metabolomics C18 Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: DescriptionCPET Metabolomics C18 Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: Protocol 1CPET Metabolomics C18 Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: Protocol 2CPET Metabolomics C18 Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: Protocol 3CPET Metabolomics C18 Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: Version InfoCPET Metabolomics C8 Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: Coding ManualCPET Metabolomics C8 Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: DescriptionCPET Metabolomics C8 Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: Protocol 1CPET Metabolomics C8 Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: Protocol 2CPET Metabolomics C8 Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: Protocol 3CPET Metabolomics C8 Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: Version InfoCPET Metabolomics C8 Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: Coding ManualCPET Metabolomics C8 Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: DescriptionCPET Metabolomics C8 Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: Protocol 1CPET Metabolomics C8 Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: Protocol 2CPET Metabolomics C8 Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: Protocol 3CPET Metabolomics C8 Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: Version InfoCPET Metabolomics Hilic Negative Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: Coding ManualCPET Metabolomics Hilic Negative Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: DescriptionCPET Metabolomics Hilic Negative Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: Protocol 1CPET Metabolomics Hilic Negative Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: Protocol 2CPET Metabolomics Hilic Negative Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: Protocol 3CPET Metabolomics Hilic Negative Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: Version InfoCPET Metabolomics Hilic Negative Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: Coding ManualCPET Metabolomics Hilic Negative Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: DescriptionCPET Metabolomics Hilic Negative Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: Protocol 1CPET Metabolomics Hilic Negative Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: Protocol 2CPET Metabolomics Hilic Negative Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: Protocol 3CPET Metabolomics Hilic Negative Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: Version InfoCPET Metabolomics Hilic Positive Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: Coding ManualCPET Metabolomics Hilic Positive Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: DescriptionCPET Metabolomics Hilic Positive Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: Protocol 1CPET Metabolomics Hilic Positive Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: Protocol 2CPET Metabolomics Hilic Positive Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: Protocol 3CPET Metabolomics Hilic Positive Baseline with Imputed Values Log2 Transformed and Normalized After Imputation Batch 1, Gen 3 Exam 3: Version InfoCPET Metabolomics Hilic Positive Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: Coding ManualCPET Metabolomics Hilic Positive Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: DescriptionCPET Metabolomics Hilic Positive Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: Protocol 1CPET Metabolomics Hilic Positive Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: Protocol 2CPET Metabolomics Hilic Positive Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: Protocol 3CPET Metabolomics Hilic Positive Fold-Change with Imputed Values Log2 Transformed and Normalized after Imputation Batch 1, Gen 3 Exam 3: Version InfoProtein Biomarkers of COPD and Progression, Case and Control (Lab Assay - Blood), Offspring Exam 7, Omni 1 Exam 2, Gen 3 Exam 1, Omni 2 Exam 1: Coding ManualProtein Biomarkers of COPD and Progression, Case and Control (Lab Assay - Blood), Offspring Exam 7, Omni 1 Exam 2, Gen 3 Exam 1, Omni 2 Exam 1: DescriptionProtein Biomarkers of COPD and Progression, Case and Control (Lab Assay - Blood), Offspring Exam 7, Omni 1 Exam 2, Gen 3 Exam 1, Omni 2 Exam 1: Protocol 1Protein Biomarkers of COPD and Progression, Case and Control (Lab Assay - Blood), Offspring Exam 7, Omni 1 Exam 2, Gen 3 Exam 1, Omni 2 Exam 1: Protocol 2Protein Biomarkers of COPD and Progression, Case and Control (Lab Assay - Blood), Offspring Exam 7, Omni 1 Exam 2, Gen 3 Exam 1, Omni 2 Exam 1: Protocol 3 Protein Biomarkers of COPD and Progression, Case and Control (Lab Assay - Blood), Offspring Exam 7, Omni 1 Exam 2, Gen 3 Exam 1, Omni 2 Exam 1: Version InfoExtracellular RNA (Blood Assay), Omni 1 Exam 3 and Omni 1 Exam 4: Coding ManualExtracellular RNA (Blood Assay), Omni 1 Exam 3 and Omni 1 Exam 4: DescriptionExtracellular RNA (Blood Assay), Omni 1 Exam 3 and Omni 1 Exam 4: ProtocolExtracellular RNA (Blood Assay), Omni 1 Exam 3 and Omni 1 Exam 4: Version InfoMicrobiome Stool Sample Questionnaire and Tracking, Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: Annotated FormMicrobiome Stool Sample Questionnaire and Tracking, Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: Coding ManualMicrobiome Stool Sample Questionnaire and Tracking, Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: DescriptionMicrobiome Stool Sample Questionnaire and Tracking, Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: ProtocolMicrobiome Stool Sample Questionnaire and Tracking, Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: Protocol 1Microbiome Stool Sample Questionnaire and Tracking, Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: Version InfoOsteoporosis Questionnaire (including falls, OP medications, PASE and Quadriceps Strength), NOS Exam 2: Annotated FormOsteoporosis Questionnaire (including falls, OP medications, PASE and Quadriceps Strength), NOS Exam 2: Coding ManualOsteoporosis Questionnaire (including falls, OP medications, PASE and Quadriceps Strength), NOS Exam 2: DescriptionOsteoporosis Questionnaire (including falls, OP medications, PASE and Quadriceps Strength), NOS Exam 2: ProtocolOsteoporosis Questionnaire (including falls, OP medications, PASE and Quadriceps Strength), NOS Exam 2: Version InfoOsteoporosis Questionnaire (including falls, OP medications, PASE and Quadriceps Strength), Omni 2 Exam 2: Annotated FormOsteoporosis Questionnaire (including falls, OP medications, PASE and Quadriceps Strength), Omni 2 Exam 2: Coding ManualOsteoporosis Questionnaire (including falls, OP medications, PASE and Quadriceps Strength), Omni 2 Exam 2: DescriptionOsteoporosis Questionnaire (including falls, OP medications, PASE and Quadriceps Strength), Omni 2 Exam 2: ProtocolOsteoporosis Questionnaire (including falls, OP medications, PASE and Quadriceps Strength), Omni 2 Exam 2: Version InfoDigital Clock Drawing Test - Linus Health, All Cohorts 2011-2018: Coding ManualDigital Clock Drawing Test - Linus Health, All Cohorts 2011-2018: DescriptionDigital Clock Drawing Test - Linus Health, All Cohorts 2011-2018: ProtocolDigital Clock Drawing Test - Linus Health, All Cohorts 2011-2018: Version InfoCardiopulmonary Exercise Test (CPET), Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: Coding ManualCardiopulmonary Exercise Test (CPET), Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: DescriptionCardiopulmonary Exercise Test (CPET), Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: ProtocolCardiopulmonary Exercise Test (CPET), Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: Version InfoHigh Resolution Peripheral Quantitative Computed Tomography (HR-pQCT) Micro Finite Element Analysis (mFEA), Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: Coding ManualHigh Resolution Peripheral Quantitative Computed Tomography (HR-pQCT) Micro Finite Element Analysis (mFEA), Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: DescriptionHigh Resolution Peripheral Quantitative Computed Tomography (HR-pQCT) Micro Finite Element Analysis (mFEA), Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: ProtocolHigh Resolution Peripheral Quantitative Computed Tomography (HR-pQCT) Micro Finite Element Analysis (mFEA), Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: Version InfoHigh Resolution Peripheral Quantitative Computed Tomography (HR-pQCT): Radial and Distal Tibia, Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: Coding ManualHigh Resolution Peripheral Quantitative Computed Tomography (HR-pQCT): Radial and Distal Tibia, Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: DescriptionHigh Resolution Peripheral Quantitative Computed Tomography (HR-pQCT): Radial and Distal Tibia, Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: ProtocolHigh Resolution Peripheral Quantitative Computed Tomography (HR-pQCT): Radial and Distal Tibia, Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: Version InfoClinic Visit ECG data (MUSE machine), All Cohorts 1986-2011: Coding ManualClinic Visit ECG data (MUSE machine), All Cohorts 1986-2011: DescriptionClinic Visit ECG data (MUSE machine), All Cohorts 1986-2011: ProtocolClinic Visit ECG data (MUSE machine), All Cohorts 1986-2011: Version InfoMicrobiome Stool Sample, Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: Coding Manual Microbiome Stool Sample, Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: Description Microbiome Stool Sample, Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: ProtocolMicrobiome Stool Sample, Gen 3 Exam 3, NOS Exam 3, Omni 2 Exam 3: Version Info ECG Data from Sleep Heart Health Study (SHHS), Offspring and Omni 1 Cohorts 11/1995-06/2003: DescriptionECG Data from Sleep Heart Health Study (SHHS), Offspring and Omni 1 Cohorts 11/1995-06/2003: Version InfoSleep Heart Health Study Baseline, Offspring and Omni 1 Cohorts 1995-1998: DescriptionSleep Heart Health Study Baseline, Offspring and Omni 1 Cohorts 1995-1998: Version InfoSleep Heart Health Study - Follow up 1, Offspring and Omni 1 Cohorts 1998-1999: DescriptionSleep Heart Health Study - Follow up 1, Offspring and Omni 1 Cohorts 1998-1999: Version InfoSleep Heart Health Study - Follow up 2, Offspring and Omni 1 Cohorts 1995-2003: DescriptionSleep Heart Health Study - Follow up 2, Offspring and Omni 1 Cohorts 1995-2003: Version InfoSleep M1 Device Wearables, Offspring and Omni 1 Cohorts 2014-2016: Annotated Form 1Sleep M1 Device Wearables, Offspring and Omni 1 Cohorts 2014-2016: Annotated Form 2Sleep M1 Device Wearables, Offspring and Omni 1 Cohorts 2014-2016: Coding ManualSleep M1 Device Wearables, Offspring and Omni 1 Cohorts 2014-2016: DescriptionSleep M1 Device Wearables, Offspring and Omni 1 Cohorts 2014-2016: Protocol 1Sleep M1 Device Wearables, Offspring and Omni 1 Cohorts 2014-2016: Protocol 2Sleep M1 Device Wearables, Offspring and Omni 1 Cohorts 2014-2016: Version InfoSleep Oximetry Device Wearables, Offspring and Omni 1 Cohorts 2014-2016: Annotated Form 1Sleep Oximetry Device Wearables, Offspring and Omni 1 Cohorts 2014-2016: Annotated Form 2Sleep Oximetry Device Wearables, Offspring and Omni 1 Cohorts 2014-2016: Coding ManualSleep Oximetry Device Wearables, Offspring and Omni 1 Cohorts 2014-2016: DescriptionSleep Oximetry Device Wearables, Offspring and Omni 1 Cohorts 2014-2016: Protocol 1Sleep Oximetry Device Wearables, Offspring and Omni 1 Cohorts 2014-2016: Protocol 2Sleep Oximetry Device Wearables, Offspring and Omni 1 Cohorts 2014-2016: Version InfoDXA Visceral Adipose Tissue (VAT), Gen 3, NOS, Omni 2 Cohorts Exams 2-3: Coding ManualDXA Visceral Adipose Tissue (VAT), Gen 3, NOS, Omni 2 Cohorts Exams 2-3: DescriptionDXA Visceral Adipose Tissue (VAT), Gen 3, NOS, Omni 2 Cohorts Exams 2-3: ProtocolDXA Visceral Adipose Tissue (VAT), Gen 3, NOS, Omni 2 Cohorts Exams 2-3: Version InfoMediterranean-style Dietary Pattern Score (MSDPS) Derived from Food Frequency Questionnaire (FFQ), Offspring Exams 5-7: Annotated FormMediterranean-style Dietary Pattern Score (MSDPS) Derived from Food Frequency Questionnaire (FFQ), Offspring Exams 5-7: Coding ManualMediterranean-style Dietary Pattern Score (MSDPS) Derived from Food Frequency Questionnaire (FFQ), Offspring Exams 5-7: DescriptionMediterranean-style Dietary Pattern Score (MSDPS) Derived from Food Frequency Questionnaire (FFQ), Offspring Exams 5-7: Protocol Mediterranean-style Dietary Pattern Score (MSDPS) Derived from Food Frequency Questionnaire (FFQ), Offspring Exams 5-7: Version InfoClinic Exam ECG Rhythm Interpreted by Clinic MD, Original Exams 19-31, Offspring Exams 1-8, Gen 3 Exams 1-2, NOS Exams 1-2, Omni 1 Exams 1-3, Omni 2 Exams 1-2: Annotated FormClinic Exam ECG Rhythm Interpreted by Clinic MD, Original Exams 19-31, Offspring Exams 1-8, Gen 3 Exams 1-2, NOS Exams 1-2, Omni 1 Exams 1-3, Omni 2 Exams 1-2: Coding ManualClinic Exam ECG Rhythm Interpreted by Clinic MD, Original Exams 19-31, Offspring Exams 1-8, Gen 3 Exams 1-2, NOS Exams 1-2, Omni 1 Exams 1-3, Omni 2 Exams 1-2: DescriptionClinic Exam ECG Rhythm Interpreted by Clinic MD, Original Exams 19-31, Offspring Exams 1-8, Gen 3 Exams 1-2, NOS Exams 1-2, Omni 1 Exams 1-3, Omni 2 Exams 1-2: ProtocolClinic Exam ECG Rhythm Interpreted by Clinic MD, Original Exams 19-31, Offspring Exams 1-8, Gen 3 Exams 1-2, NOS Exams 1-2, Omni 1 Exams 1-3, Omni 2 Exams 1-2: Version InfoEducation Level for All Cohorts, All Cohorts through 2018: Coding ManualEducation Level for All Cohorts, All Cohorts through 2018: DescriptionEducation Level for All Cohorts, All Cohorts through 2018: ProtocolEducation Level for All Cohorts, All Cohorts through 2018: Version InfoFood Frequency Questionnaire and Derived Variables, New Offspring Spouse Exam 1: CodesFood Frequency Questionnaire and Derived Variables, New Offspring Spouse Exam 1: Coding Manual 2Food Frequency Questionnaire and Derived Variables, New Offspring Spouse Exam 1: Protocol 2Food Frequency Questionnaire and Derived Variables, Generation 3 Exam 1: CodesFood Frequency Questionnaire and Derived Variables, Generation 3 Exam 1: Coding Manual 2Food Frequency Questionnaire and Derived Variables, Generation 3 Exam 1: DescriptionFood Frequency Questionnaire and Derived Variables, Generation 3 Exam 1: Protocol 2Food Frequency Questionnaire and Derived Variables, Omni 2 Exam 1: CodesFood Frequency Questionnaire and Derived Variables, Omni 2 Exam 1: Coding Manual 2Food Frequency Questionnaire and Derived Variables, Omni 2 Exam 1: Protocol 2Food Frequency Questionnaire with Derived Variables, Gen 3, NOS, Omni 2 Cohorts Exam 2: Coding Manual 2Food Frequency Questionnaire with Derived Variables, Gen 3, NOS, Omni 2 Cohorts Exam 2: DescriptionFood Frequency Questionnaire with Derived Variables, Gen 3, NOS, Omni 2 Cohorts Exam 2: Version InfoFood Frequency Questionnaire with Derived Variables, Omni 1 Exam 2: Annotated FormFood Frequency Questionnaire with Derived Variables, Omni 1 Exam 2: CodesFood Frequency Questionnaire with Derived Variables, Omni 1 Exam 2: Coding ManualFood Frequency Questionnaire with Derived Variables, Omni 1 Exam 2: Coding Manual 2Food Frequency Questionnaire with Derived Variables, Omni 1 Exam 2: DescriptionFood Frequency Questionnaire with Derived Variables, Omni 1 Exam 2: ProtocolFood Frequency Questionnaire with Derived Variables, Omni 1 Exam 2: Version InfoFood Frequency Questionnaire with Derived Variables, Gen 3, NOS, Omni 2 Cohorts Exam 3: Annotated FormFood Frequency Questionnaire with Derived Variables, Gen 3, NOS, Omni 2 Cohorts Exam 3: CodesFood Frequency Questionnaire with Derived Variables, Gen 3, NOS, Omni 2 Cohorts Exam 3: Coding ManualFood Frequency Questionnaire with Derived Variables, Gen 3, NOS, Omni 2 Cohorts Exam 3: Coding Manual 2Food Frequency Questionnaire with Derived Variables, Gen 3, NOS, Omni 2 Cohorts Exam 3: DescriptionFood Frequency Questionnaire with Derived Variables, Gen 3, NOS, Omni 2 Cohorts Exam 3: ProtocolFood Frequency Questionnaire with Derived Variables, Gen 3, NOS, Omni 2 Cohorts Exam 3: Version InfoFood Frequency Questionnaire and Derived Variables, Omni 1 Exam 3: CodesFood Frequency Questionnaire and Derived Variables, Omni 1 Exam 3: Coding Manual 2Food Frequency Questionnaire with Derived Variables, Offspring Cohort, Exam 8: Version InfoFood Frequency Questionnaire with Derived Variables, Offspring Exam 9, Omni 1 Exam 4: CodesCalculated Individual Calorie Contribution Generated from the Food Frequency Questionnaire, Gen 3, NOS, Omni 2 Cohorts Exam 3: Coding ManualCalculated Individual Calorie Contribution Generated from the Food Frequency Questionnaire, Gen 3, NOS, Omni 2 Cohorts Exam 3: DescriptionCalculated Individual Calorie Contribution Generated from the Food Frequency Questionnaire, Gen 3, NOS, Omni 2 Cohorts Exam 3: ProtocolCalculated Individual Calorie Contribution Generated from the Food Frequency Questionnaire, Gen 3, NOS, Omni 2 Cohorts Exam 3: Version InfoCalculated Individual Calorie Contribution Generated from the Food Frequency Questionnaire, Offspring Exam 9: Coding ManualCalculated Individual Calorie Contribution Generated from the Food Frequency Questionnaire, Offspring Exam 9: DescriptionCalculated Individual Calorie Contribution Generated from the Food Frequency Questionnaire, Offspring Exam 9: ProtocolCalculated Individual Calorie Contribution Generated from the Food Frequency Questionnaire, Offspring Exam 9: Version InfoFlavonoid Data, Offspring Cohort Exams 5-8: Coding ManualFlavonoid Data, Offspring Cohort Exams 5-8: DescriptionFlavonoid Data, Offspring Cohort Exams 5-8: ProtocolFlavonoid Data, Offspring Cohort Exams 5-8: Version InfoPhysical Activity Monitor Reprocessed Days Data, Offspring Exam 9, Gen 3 Exams 2-3, NOS Exams 2-3, Omni 1 Exam 4, Omni 2 Exams 2-3: Coding ManualPhysical Activity Monitor Reprocessed Days Data, Offspring Exam 9, Gen 3 Exams 2-3, NOS Exams 2-3, Omni 1 Exam 4, Omni 2 Exams 2-3: DescriptionPhysical Activity Monitor Reprocessed Days Data, Offspring Exam 9, Gen 3 Exams 2-3, NOS Exams 2-3, Omni 1 Exam 4, Omni 2 Exams 2-3: ProtocolPhysical Activity Monitor Reprocessed Days Data, Offspring Exam 9, Gen 3 Exams 2-3, NOS Exams 2-3, Omni 1 Exam 4, Omni 2 Exams 2-3: Version InfoPhysical Activity Monitor Reprocessed Summary Data, Offspring Exam 9, Gen 3 Exams 2-3, NOS Exams 2-3, Omni 1 Exam 4, Omni 2 Exams 2-3: Coding ManualPhysical Activity Monitor Reprocessed Summary Data, Offspring Exam 9, Gen 3 Exams 2-3, NOS Exams 2-3, Omni 1 Exam 4, Omni 2 Exams 2-3: DescriptionPhysical Activity Monitor Reprocessed Summary Data, Offspring Exam 9, Gen 3 Exams 2-3, NOS Exams 2-3, Omni 1 Exam 4, Omni 2 Exams 2-3: ProtocolPhysical Activity Monitor Reprocessed Summary Data, Offspring Exam 9, Gen 3 Exams 2-3, NOS Exams 2-3, Omni 1 Exam 4, Omni 2 Exams 2-3: Version InfoSmoking Status: Former/Current/Never, Offspring Exams 1-9, Omni 1 Exams 1-4, Gen 3/NOS/Omni 2 Exams 1-3: Coding ManualSmoking Status: Former/Current/Never, Offspring Exams 1-9, Omni 1 Exams 1-4, Gen 3/NOS/Omni 2 Exams 1-3: DescriptionSmoking Status: Former/Current/Never, Offspring Exams 1-9, Omni 1 Exams 1-4, Gen 3/NOS/Omni 2 Exams 1-3: ProtocolSmoking Status: Former/Current/Never, Offspring Exams 1-9, Omni 1 Exams 1-4, Gen 3/NOS/Omni 2 Exams 1-3: Version InfoClinic Exam: Interview, Physical Exam, ECG, Gen 3 Exam 2, NOS Exam 2, Omni 2 Exam 2: DescriptionClinic Exam: Interview, Physical Exam, ECG, Offspring Exam 10, Omni 1 Exam 5: Annotated FormClinic Exam: Interview, Physical Exam, ECG, Offspring Exam 10, Omni 1 Exam 5: Coding ManualClinic Exam: Interview, Physical Exam, ECG, Offspring Exam 10, Omni 1 Exam 5: DescriptionClinic Exam: Interview, Physical Exam, ECG, Offspring Exam 10, Omni 1 Exam 5: ProtocolClinic Exam: Interview, Physical Exam, ECG, Offspring Exam 10, Omni 1 Exam 5: Protocol 2Clinic Exam: Interview, Physical Exam, ECG, Offspring Exam 10, Omni 1 Exam 5: Version InfoClinic Exam, Offspring Cohort Exam 1: Version InfoClinic Exam, Offspring Cohort Exam 2: Version InfoAlanine Aminotransferase and Aspartate Aminotransferase, Offspring Exam 8, Gen 3 Exam 1, NOS Exam 1, Omni 1 Exams 2-3, Omni 2 Exam 1: Coding ManualAlanine Aminotransferase and Aspartate Aminotransferase, Offspring Exam 8, Gen 3 Exam 1, NOS Exam 1, Omni 1 Exams 2-3, Omni 2 Exam 1: DescriptionAlanine Aminotransferase and Aspartate Aminotransferase, Offspring Exam 8, Gen 3 Exam 1, NOS Exam 1, Omni 1 Exams 2-3, Omni 2 Exam 1: Protocol 1Alanine Aminotransferase and Aspartate Aminotransferase, Offspring Exam 8, Gen 3 Exam 1, NOS Exam 1, Omni 1 Exams 2-3, Omni 2 Exam 1: Protocol 2Alanine Aminotransferase and Aspartate Aminotransferase, Offspring Exam 8, Gen 3 Exam 1, NOS Exam 1, Omni 1 Exams 2-3, Omni 2 Exam 1: Protocol 3Alanine Aminotransferase and Aspartate Aminotransferase, Offspring Exam 8, Gen 3 Exam 1, NOS Exam 1, Omni 1 Exams 2-3, Omni 2 Exam 1: Version Info Alanine Aminotransferase and Aspartate Aminotransferase, Offspring Exam 7: Coding ManualAlanine Aminotransferase and Aspartate Aminotransferase, Offspring Exam 7: DescriptionAlanine Aminotransferase and Aspartate Aminotransferase, Offspring Exam 7: Protocol 1Alanine Aminotransferase and Aspartate Aminotransferase, Offspring Exam 7: Protocol 2Alanine Aminotransferase and Aspartate Aminotransferase, Offspring Exam 7: Version Info Antibodies - CMV (Lab Assay: Blood), Offspring Exam 7: Coding ManualAntibodies - CMV (Lab Assay: Blood), Offspring Exam 7: DescriptionAntibodies - CMV (Lab Assay: Blood), Offspring Exam 7: Protocol 1Antibodies - CMV (Lab Assay: Blood), Offspring Exam 7: Protocol 2Antibodies - CMV (Lab Assay: Blood), Offspring Exam 7: Version InfoCeramide Chain Length Lab Assay (blood), Offspring Exam 8, Omni 1 Exam 3: Coding Manual Ceramide Chain Length Lab Assay (blood), Offspring Exam 8, Omni 1 Exam 3: DescriptionCeramide Chain Length Lab Assay (blood), Offspring Exam 8, Omni 1 Exam 3: ProtocolCeramide Chain Length Lab Assay (blood), Offspring Exam 8, Omni 1 Exam 3: Version InfoCeramides, Offspring Exam 8: Coding ManualCeramides, Offspring Exam 8: DescriptionCeramides, Offspring Exam 8: ProtocolCeramides, Offspring Exam 8: Version InfoImmune Cell Typing Lab Assay (blood), Offspring Exam 7: Coding ManualImmune Cell Typing Lab Assay (blood), Offspring Exam 7: DescriptionImmune Cell Typing Lab Assay (blood), Offspring Exam 7: ProtocolImmune Cell Typing Lab Assay (blood), Offspring Exam 7: Protocol 1Immune Cell Typing Lab Assay (blood), Offspring Exam 7: Protocol 2Immune Cell Typing Lab Assay (blood), Offspring Exam 7: Protocol 3Immune Cell Typing Lab Assay (blood), Offspring Exam 7: Protocol 4Immune Cell Typing Lab Assay (blood), Offspring Exam 7: Protocol 5Immune Cell Typing Lab Assay (blood), Offspring Exam 7: Version InfoCystatin-C Lab Assay (blood), NOS Exam 1, Omni 1 Exam 2: Coding ManualCystatin-C Lab Assay (blood), NOS Exam 1, Omni 1 Exam 2: DescriptionCystatin-C Lab Assay (blood), NOS Exam 1, Omni 1 Exam 2: ProtocolCystatin-C Lab Assay (blood), NOS Exam 1, Omni 1 Exam 2: Version InfoCystatin-C Lab Assay (blood), Gen 3 Exams 1-2, Omni 2 Exams 1-2, NOS Exam 2: Coding ManualCystatin-C Lab Assay (blood), Gen 3 Exams 1-2, Omni 2 Exams 1-2, NOS Exam 2: DescriptionCystatin-C Lab Assay (blood), Gen 3 Exams 1-2, Omni 2 Exams 1-2, NOS Exam 2: ProtocolCystatin-C Lab Assay (blood), Gen 3 Exams 1-2, Omni 2 Exams 1-2, NOS Exam 2: Version InfoCystatin-C, Offspring Exam 6: Coding ManualCystatin-C, Offspring Exam 6: DescriptionCystatin-C, Offspring Exam 6: ProtocolCystatin-C, Offspring Exam 6: Version InfoCystatin-C (Lab Assay: Blood), Offspring Exam 9, Omni 1 Exam 4: Coding ManualCystatin-C (Lab Assay: Blood), Offspring Exam 9, Omni 1 Exam 4: DescriptionCystatin-C (Lab Assay: Blood), Offspring Exam 9, Omni 1 Exam 4: ProtocolCystatin-C (Lab Assay: Blood), Offspring Exam 9, Omni 1 Exam 4: Version InfoEndocannabinoids Lab Assay (blood), Offspring Exam 9: Coding ManualEndocannabinoids Lab Assay (blood), Offspring Exam 9: DescriptionEndocannabinoids Lab Assay (blood), Offspring Exam 9: Protocol 1Endocannabinoids Lab Assay (blood), Offspring Exam 9: Protocol 2Endocannabinoids Lab Assay (blood), Offspring Exam 9: Protocol 3Endocannabinoids Lab Assay (blood), Offspring Exam 9: Protocol 4Endocannabinoids Lab Assay (blood), Offspring Exam 9: Version InfoFerritin, Original Cohort Exam 20: Coding ManualFerritin, Original Cohort Exam 20: DescriptionFerritin, Original Cohort Exam 20: ProtocolFerritin, Original Cohort Exam 20: Version InfoHuman Fibroblast Growth Factor 23, Offspring Exam 7, Omni 1 Exam 2: Coding Manual Human Fibroblast Growth Factor 23, Offspring Exam 7, Omni 1 Exam 2: DescriptionHuman Fibroblast Growth Factor 23, Offspring Exam 7, Omni 1 Exam 2: ProtocolHuman Fibroblast Growth Factor 23, Offspring Exam 7, Omni 1 Exam 2: Version InfoHormones (Measured on Females), Offspring Exam 7, Gen 3 Exam 1, Omni 2 Exam 1: DescriptionHormones (Measured on Females), Offspring Exam 7, Gen 3 Exam 1, Omni 2 Exam 1: Protocol 2Hormones (Measured on Females), Offspring Exam 7, Gen 3 Exam 1, Omni 2 Exam 1: Protocol 3Hormones (Measured on Females), Offspring Exam 7, Gen 3 Exam 1, Omni 2 Exam 1: Version InfoRoutine Lab Work processed at Framingham, Offspring Exam 10, Omni 1 Exam 5: Coding ManualRoutine Lab Work processed at Framingham, Offspring Exam 10, Omni 1 Exam 5: DescriptionRoutine Lab Work processed at Framingham, Offspring Exam 10, Omni 1 Exam 5: ProtocolRoutine Lab Work processed at Framingham, Offspring Exam 10, Omni 1 Exam 5: Version Info Galectin-3 Lab Assay (blood), Offspring Exam 8, Omni 1 Exam 3: Coding ManualGalectin-3 Lab Assay (blood), Offspring Exam 8, Omni 1 Exam 3: DescriptionGalectin-3 Lab Assay (blood), Offspring Exam 8, Omni 1 Exam 3: ProtocolGalectin-3 Lab Assay (blood), Offspring Exam 8, Omni 1 Exam 3: Version InfoGrowth Differentiation Factor-15 - Lab Assay - Blood, Gen 3 Exam 1, Omni 2 Exam 1: Coding Manual Growth Differentiation Factor-15 - Lab Assay - Blood, Gen 3 Exam 1, Omni 2 Exam 1: DescriptionGrowth Differentiation Factor-15 - Lab Assay - Blood, Gen 3 Exam 1, Omni 2 Exam 1: Protocol 1Growth Differentiation Factor-15 - Lab Assay - Blood, Gen 3 Exam 1, Omni 2 Exam 1: Protocol 2Growth Differentiation Factor-15 - Lab Assay - Blood, Gen 3 Exam 1, Omni 2 Exam 1: Version Info Plasma Gamma-glutamyl Transferase Fractions (Lab Assay: Blood), Offspring Exam 6: Coding ManualPlasma Gamma-glutamyl Transferase Fractions (Lab Assay: Blood), Offspring Exam 6: DescriptionPlasma Gamma-glutamyl Transferase Fractions (Lab Assay: Blood), Offspring Exam 6: ProtocolPlasma Gamma-glutamyl Transferase Fractions (Lab Assay: Blood), Offspring Exam 6: Version InfoHDL Free Cholesterol (Lab Assay: Blood), Offspring Exam 6: Coding ManualHDL Free Cholesterol (Lab Assay: Blood), Offspring Exam 6: DescriptionHDL Free Cholesterol (Lab Assay: Blood), Offspring Exam 6: ProtocolHDL Free Cholesterol (Lab Assay: Blood), Offspring Exam 6: Version InfoCholesteryl Ester Transfer Protein Activity and Mass and Phospholipid Transfer Protein Activity, Offspring Exam 6: Coding Manual Cholesteryl Ester Transfer Protein Activity and Mass and Phospholipid Transfer Protein Activity, Offspring Exam 6: DescriptionCholesteryl Ester Transfer Protein Activity and Mass and Phospholipid Transfer Protein Activity, Offspring Exam 6: Protocol 1Cholesteryl Ester Transfer Protein Activity and Mass and Phospholipid Transfer Protein Activity, Offspring Exam 6: Protocol 2Cholesteryl Ester Transfer Protein Activity and Mass and Phospholipid Transfer Protein Activity, Offspring Exam 6: Protocol 3Cholesteryl Ester Transfer Protein Activity and Mass and Phospholipid Transfer Protein Activity, Offspring Exam 6: Protocol 4Cholesteryl Ester Transfer Protein Activity and Mass and Phospholipid Transfer Protein Activity, Offspring Exam 6: Version InfoHomoarginine Lab Assay (Blood), Offspring Exam 6: Coding ManualHomoarginine Lab Assay (Blood), Offspring Exam 6: DescriptionHomoarginine Lab Assay (Blood), Offspring Exam 6: ProtocolHomoarginine Lab Assay (Blood), Offspring Exam 6: Version InfoLipoprotein Lipase (Lab Assay: Blood), Offspring Exam 8, Gen 3 Exam 1, NOS Exam 1, Omni 1 Exam 3, Omni 2 Exam 1: Coding ManualLipoprotein Lipase (Lab Assay: Blood), Offspring Exam 8, Gen 3 Exam 1, NOS Exam 1, Omni 1 Exam 3, Omni 2 Exam 1: DescriptionLipoprotein Lipase (Lab Assay: Blood), Offspring Exam 8, Gen 3 Exam 1, NOS Exam 1, Omni 1 Exam 3, Omni 2 Exam 1: ProtocolLipoprotein Lipase (Lab Assay: Blood), Offspring Exam 8, Gen 3 Exam 1, NOS Exam 1, Omni 1 Exam 3, Omni 2 Exam 1: Version InfoMethylmalonic Acid (MMA) (Lab Assay: Blood), Omni 1 Exam 2: Coding ManualMethylmalonic Acid (MMA) (Lab Assay: Blood), Omni 1 Exam 2: DescriptionMethylmalonic Acid (MMA) (Lab Assay: Blood), Omni 1 Exam 2: ProtocolMethylmalonic Acid (MMA) (Lab Assay: Blood), Omni 1 Exam 2: Version InfoMethylmalonic Acid (MMA), Offspring Exam 7: Coding ManualMethylmalonic Acid (MMA), Offspring Exam 7: DescriptionMethylmalonic Acid (MMA), Offspring Exam 7: ProtocolMethylmalonic Acid (MMA), Offspring Exam 7: Version InfoNitrate in Plasma, Offspring Exam 6: Coding ManualNitrate in Plasma, Offspring Exam 6: DescriptionNitrate in Plasma, Offspring Exam 6: ProtocolNitrate in Plasma, Offspring Exam 6: Version InfoOxidized Phospholipids - Lab Assay (Blood), Offspring Exam 7, Omni 1 Exam 2: Coding Manual Oxidized Phospholipids - Lab Assay (Blood), Offspring Exam 7, Omni 1 Exam 2: DescriptionOxidized Phospholipids - Lab Assay (Blood), Offspring Exam 7, Omni 1 Exam 2: ProtocolOxidized Phospholipids - Lab Assay (Blood), Offspring Exam 7, Omni 1 Exam 2: Version InfoLab Assay (blood): Proneurotensin, Offspring Exam 6: Coding ManualLab Assay (blood): Proneurotensin, Offspring Exam 6: DescriptionLab Assay (blood): Proneurotensin, Offspring Exam 6: ProtocolLab Assay (blood): Proneurotensin, Offspring Exam 6: Version InfoProtein Biomarkers of COPD and Progression, Case and Control - Panel 2 (Lab Assay - Blood), Offspring Exam 7, Gen 3 Exam 1, Omni 1 Exam 2, Omni 2 Exam 1: Coding Manual Protein Biomarkers of COPD and Progression, Case and Control - Panel 2 (Lab Assay - Blood), Offspring Exam 7, Gen 3 Exam 1, Omni 1 Exam 2, Omni 2 Exam 1: DescriptionProtein Biomarkers of COPD and Progression, Case and Control - Panel 2 (Lab Assay - Blood), Offspring Exam 7, Gen 3 Exam 1, Omni 1 Exam 2, Omni 2 Exam 1: Protocol 1Protein Biomarkers of COPD and Progression, Case and Control - Panel 2 (Lab Assay - Blood), Offspring Exam 7, Gen 3 Exam 1, Omni 1 Exam 2, Omni 2 Exam 1: Protocol 2Protein Biomarkers of COPD and Progression, Case and Control - Panel 2 (Lab Assay - Blood), Offspring Exam 7, Gen 3 Exam 1, Omni 1 Exam 2, Omni 2 Exam 1: Protocol 3Protein Biomarkers of COPD and Progression, Case and Control - Panel 2 (Lab Assay - Blood), Offspring Exam 7, Gen 3 Exam 1, Omni 1 Exam 2, Omni 2 Exam 1: Version InfoProteomics - Inflammation Panel (Olink Panel Target 96 Inflammation), Offspring Exam 7: Coding ManualProteomics - Inflammation Panel (Olink Panel Target 96 Inflammation), Offspring Exam 7: DescriptionProteomics - Inflammation Panel (Olink Panel Target 96 Inflammation), Offspring Exam 7: Protocol 1Proteomics - Inflammation Panel (Olink Panel Target 96 Inflammation), Offspring Exam 7: Protocol 2Proteomics - Inflammation Panel (Olink Panel Target 96 Inflammation), Offspring Exam 7: Protocol 3Proteomics - Inflammation Panel (Olink Panel Target 96 Inflammation), Offspring Exam 7: Version InfoPlant Sterols, Offspring Exam 6: Coding ManualPlant Sterols, Offspring Exam 6: DescriptionPlant Sterols, Offspring Exam 6: ProtocolPlant Sterols, Offspring Exam 6: Version InfoPlant Sterols (Blood Assay), Offspring Exam 6: Coding ManualPlant Sterols (Blood Assay), Offspring Exam 6: DescriptionPlant Sterols (Blood Assay), Offspring Exam 6: Protocol 1Plant Sterols (Blood Assay), Offspring Exam 6: Protocol 2Plant Sterols (Blood Assay), Offspring Exam 6: Protocol 3Plant Sterols (Blood Assay), Offspring Exam 6: Version InfopTau-181 (Lab Assay: Blood), Offspring Exam 9, Omni 1 Exam 4: Coding Manual pTau-181 (Lab Assay: Blood), Offspring Exam 9, Omni 1 Exam 4: DescriptionpTau-181 (Lab Assay: Blood), Offspring Exam 9, Omni 1 Exam 4: ProtocolpTau-181 (Lab Assay: Blood), Offspring Exam 9, Omni 1 Exam 4: Version InfoSoluble Phospholipase A2 (sPLA2), Offspring Exam 7, Omni 1 Exam 2: Coding ManualSoluble Phospholipase A2 (sPLA2), Offspring Exam 7, Omni 1 Exam 2: DescriptionSoluble Phospholipase A2 (sPLA2), Offspring Exam 7, Omni 1 Exam 2: ProtocolSoluble Phospholipase A2 (sPLA2), Offspring Exam 7, Omni 1 Exam 2: Version InfoThromboxane B2 Metabolites - Lab Assay (urine), Offspring Exam 8, Omni 1 Exam 3: Coding Manual Thromboxane B2 Metabolites - Lab Assay (urine), Offspring Exam 8, Omni 1 Exam 3: DescriptionThromboxane B2 Metabolites - Lab Assay (urine), Offspring Exam 8, Omni 1 Exam 3: Protocol 1Thromboxane B2 Metabolites - Lab Assay (urine), Offspring Exam 8, Omni 1 Exam 3: Protocol 1aThromboxane B2 Metabolites - Lab Assay (urine), Offspring Exam 8, Omni 1 Exam 3: Protocol 2Thromboxane B2 Metabolites - Lab Assay (urine), Offspring Exam 8, Omni 1 Exam 3: Version InfoLab Assay: Calcium and Phosphorus, Measured in Urine, Offspring Exam 7, Omni 1 Exam 2: Coding Manual Lab Assay: Calcium and Phosphorus, Measured in Urine, Offspring Exam 7, Omni 1 Exam 2: DescriptionLab Assay: Calcium and Phosphorus, Measured in Urine, Offspring Exam 7, Omni 1 Exam 2: ProtocolLab Assay: Calcium and Phosphorus, Measured in Urine, Offspring Exam 7, Omni 1 Exam 2: Version InfoBerkman Social Network Questionnaire, Original, Offspring, Omni 1 Cohorts 3/2005 to 8/2009: Annotated FormBerkman Social Network Questionnaire, Original, Offspring, Omni 1 Cohorts 3/2005 to 8/2009: Coding Manual Berkman Social Network Questionnaire, Original, Offspring, Omni 1 Cohorts 3/2005 to 8/2009: Description Berkman Social Network Questionnaire, Original, Offspring, Omni 1 Cohorts 3/2005 to 8/2009: ProtocolBerkman Social Network Questionnaire, Original, Offspring, Omni 1 Cohorts 3/2005 to 8/2009: Version InfoOmni 1 Race Category Data Collection, Omni 1 Exams 1-2: Annotated FormOmni 1 Race Category Data Collection, Omni 1 Exams 1-2: Coding ManualOmni 1 Race Category Data Collection, Omni 1 Exams 1-2: DescriptionOmni 1 Race Category Data Collection, Omni 1 Exams 1-2: ProtocolOmni 1 Race Category Data Collection, Omni 1 Exams 1-2: Version InfoPsychosocial Scales, Original Exams 8-10: Coding ManualPsychosocial Scales, Original Exams 8-10: DescriptionPsychosocial Scales, Original Exams 8-10: Protocol 1Psychosocial Scales, Original Exams 8-10: Protocol 2Psychosocial Scales, Original Exams 8-10: Protocol 3Psychosocial Scales, Original Exams 8-10: Protocol 4Psychosocial Scales, Original Exams 8-10: Version InfoNeuropathology at Brain Autopsy, Original, Offspring, Gen 3, NOS, Omni 1 1996-2022: DescriptionNeuropathology at Brain Autopsy, Original, Offspring, Gen 3, NOS, Omni 1 1996-2022: Protocol 1Neuropathology at Brain Autopsy, Original, Offspring, Gen 3, NOS, Omni 1 1996-2022: Version InfoInterstitial Lung Abnormalities (acquired from round 1 CT scan), Offspring, Gen 3 2002-2005: Coding Manual Interstitial Lung Abnormalities (acquired from round 1 CT scan), Offspring, Gen 3 2002-2005: DescriptionInterstitial Lung Abnormalities (acquired from round 1 CT scan), Offspring, Gen 3 2002-2005: ProtocolInterstitial Lung Abnormalities (acquired from round 1 CT scan), Offspring, Gen 3 2002-2005: Version InfoUpper Body Subcutaneous Fat by CT, Offspring, Gen 3, Omni 1, Omni 2 Cohorts 2008-2011: Annotated FormUpper Body Subcutaneous Fat by CT, Offspring, Gen 3, Omni 1, Omni 2 Cohorts 2008-2011: Coding Manual Upper Body Subcutaneous Fat by CT, Offspring, Gen 3, Omni 1, Omni 2 Cohorts 2008-2011: DescriptionUpper Body Subcutaneous Fat by CT, Offspring, Gen 3, Omni 1, Omni 2 Cohorts 2008-2011: ProtocolUpper Body Subcutaneous Fat by CT, Offspring, Gen 3, Omni 1, Omni 2 Cohorts 2008-2011: Version InfoP-wave Signal-averaged ECG, Gen 3 Exam 2, NOS Exam 2, Omni 2 Exam 2: Annotated FormP-wave Signal-averaged ECG, Gen 3 Exam 2, NOS Exam 2, Omni 2 Exam 2: Coding ManualP-wave Signal-averaged ECG, Gen 3 Exam 2, NOS Exam 2, Omni 2 Exam 2: DescriptionP-wave Signal-averaged ECG, Gen 3 Exam 2, NOS Exam 2, Omni 2 Exam 2: ProtocolP-wave Signal-averaged ECG, Gen 3 Exam 2, NOS Exam 2, Omni 2 Exam 2: Version InfoLeft Atrial Structure and Function by Echocardiography, Offspring Exam 8, Omni 1 Exam 3: Coding Manual Left Atrial Structure and Function by Echocardiography, Offspring Exam 8, Omni 1 Exam 3: DescriptionLeft Atrial Structure and Function by Echocardiography, Offspring Exam 8, Omni 1 Exam 3: ProtocolLeft Atrial Structure and Function by Echocardiography, Offspring Exam 8, Omni 1 Exam 3: Version InfoMitral Valve Progression by Echocardiography, Offspring Cohort 1995-2007: Coding ManualMitral Valve Progression by Echocardiography, Offspring Cohort 1995-2007: DescriptionMitral Valve Progression by Echocardiography, Offspring Cohort 1995-2007: Version Info Echocardiographic LA and LV Sphericity, Offspring Exam 8, Omni 1 Exam 3: Coding ManualEchocardiographic LA and LV Sphericity, Offspring Exam 8, Omni 1 Exam 3: DescriptionEchocardiographic LA and LV Sphericity, Offspring Exam 8, Omni 1 Exam 3: Protocol 1Echocardiographic LA and LV Sphericity, Offspring Exam 8, Omni 1 Exam 3: Protocol 2Echocardiographic LA and LV Sphericity, Offspring Exam 8, Omni 1 Exam 3: Version InfoEye Examination and Retinal Photo Gradings for the Framingham Offspring Eye Study, Offspring 1989-1991: Annotated Form 1Eye Examination and Retinal Photo Gradings for the Framingham Offspring Eye Study, Offspring 1989-1991: DescriptionEye Examination and Retinal Photo Gradings for the Framingham Offspring Eye Study, Offspring 1989-1991: Version Info Hearing Test and Questionnaire, Original Cohort 4/1978-10/1979: Annotated FormHearing Test and Questionnaire, Original Cohort 4/1978-10/1979: Coding ManualHearing Test and Questionnaire, Original Cohort 4/1978-10/1979: DescriptionHearing Test and Questionnaire, Original Cohort 4/1978-10/1979: Protocol 1Hearing Test and Questionnaire, Original Cohort 4/1978-10/1979: Protocol 2Hearing Test and Questionnaire, Original Cohort 4/1978-10/1979: Protocol 3Hearing Test and Questionnaire, Original Cohort 4/1978-10/1979: Version InfoVibration-controlled Transient Elastography (Fibroscan) of the Liver, Offspring Exam 10, Omni 1 Exam 5: Coding Manual Vibration-controlled Transient Elastography (Fibroscan) of the Liver, Offspring Exam 10, Omni 1 Exam 5: DescriptionVibration-controlled Transient Elastography (Fibroscan) of the Liver, Offspring Exam 10, Omni 1 Exam 5: ProtocolVibration-controlled Transient Elastography (Fibroscan) of the Liver, Offspring Exam 10, Omni 1 Exam 5: Version InfoPSMD by DTI - Hardi Method (Diffusion Tensor Imaging), Offspring, Gen 3, Omni 1 Cohorts 2015-2021: Coding Manual PSMD by DTI - Hardi Method (Diffusion Tensor Imaging), Offspring, Gen 3, Omni 1 Cohorts 2015-2021: DescriptionPSMD by DTI - Hardi Method (Diffusion Tensor Imaging), Offspring, Gen 3, Omni 1 Cohorts 2015-2021: ProtocolPSMD by DTI - Hardi Method (Diffusion Tensor Imaging), Offspring, Gen 3, Omni 1 Cohorts 2015-2021: Version Info DTI of White Matter Microstructure: PSMD, FW and FA (Diffusion tensor imaging), All Cohorts 6/2009-3/2020: Coding ManualDTI of White Matter Microstructure: PSMD, FW and FA (Diffusion tensor imaging), All Cohorts 6/2009-3/2020: DescriptionDTI of White Matter Microstructure: PSMD, FW and FA (Diffusion tensor imaging), All Cohorts 6/2009-3/2020: ProtocolDTI of White Matter Microstructure: PSMD, FW and FA (Diffusion tensor imaging), All Cohorts 6/2009-3/2020: Version InfoStructural Brain MRI (Fram 4), All Cohorts 1999-2022: Coding ManualStructural Brain MRI (Fram 4), All Cohorts 1999-2022: DescriptionStructural Brain MRI (Fram 4), All Cohorts 1999-2022: ProtocolStructural Brain MRI (Fram 4), All Cohorts 1999-2022: Version InfoCardiac MRI Plaque Data, Offspring, Omni 1 Cohorts 2002-2005: DescriptionCardiac MRI Plaque Data, Offspring, Omni 1 Cohorts 2002-2005: ProtocolCardiac MRI Plaque Data, Offspring, Omni 1 Cohorts 2002-2005: Version Info Ventricular Strain by Cardiac MRI, Offspring, Omni 1 Cohorts 2002-2006: Coding ManualVentricular Strain by Cardiac MRI, Offspring, Omni 1 Cohorts 2002-2006: DescriptionVentricular Strain by Cardiac MRI, Offspring, Omni 1 Cohorts 2002-2006: ProtocolVentricular Strain by Cardiac MRI, Offspring, Omni 1 Cohorts 2002-2006: Version InfoPhysical Functioning Test, Original, Offspring, Omni 1 Cohorts 1/2005-10/2010: Annotated FormPhysical Functioning Test, Original, Offspring, Omni 1 Cohorts 1/2005-10/2010: Coding ManualPhysical Functioning Test, Original, Offspring, Omni 1 Cohorts 1/2005-10/2010: DescriptionPhysical Functioning Test, Original, Offspring, Omni 1 Cohorts 1/2005-10/2010: ProtocolPhysical Functioning Test, Original, Offspring, Omni 1 Cohorts 1/2005-10/2010: Version Info Whole Body and Regional Dual X-ray Absorptiometry (DXA), Omni 2 Exam 2: Coding ManualWhole Body and Regional Dual X-ray Absorptiometry (DXA), Omni 2 Exam 2: DescriptionWhole Body and Regional Dual X-ray Absorptiometry (DXA), Omni 2 Exam 2: ProtocolWhole Body and Regional Dual X-ray Absorptiometry (DXA), Omni 2 Exam 2: Version InfoAir Pollution Data: Black Carbon Model, Offspring Exams 6-8, Gen 3 Exams 1-2: Coding ManualAir Pollution Data: Black Carbon Model, Offspring Exams 6-8, Gen 3 Exams 1-2: DescriptionAir Pollution Data: Black Carbon Model, Offspring Exams 6-8, Gen 3 Exams 1-2: ProtocolAir Pollution Data: Black Carbon Model, Offspring Exams 6-8, Gen 3 Exams 1-2: Version InfoAir Pollution Data: Black Carbon Model Annual Average, Offspring Exams 6-8, Gen 3 Exams 1-2: Coding ManualAir Pollution Data: Black Carbon Model Annual Average, Offspring Exams 6-8, Gen 3 Exams 1-2: DescriptionAir Pollution Data: Black Carbon Model Annual Average, Offspring Exams 6-8, Gen 3 Exams 1-2: ProtocolAir Pollution Data: Black Carbon Model Annual Average, Offspring Exams 6-8, Gen 3 Exams 1-2: Version InfoAir Pollution Data: Distance to Source of Pollution, Offspring Exams 6-8, Gen 3 Exams 1-2: Coding ManualAir Pollution Data: Distance to Source of Pollution, Offspring Exams 6-8, Gen 3 Exams 1-2: DescriptionAir Pollution Data: Distance to Source of Pollution, Offspring Exams 6-8, Gen 3 Exams 1-2: ProtocolAir Pollution Data: Distance to Source of Pollution, Offspring Exams 6-8, Gen 3 Exams 1-2: Version InfoAir Pollution Data: Harvard Supersite, Offspring Exams 6-8, Gen 3 Exams 1-2: Coding ManualAir Pollution Data: Harvard Supersite, Offspring Exams 6-8, Gen 3 Exams 1-2: DescriptionAir Pollution Data: Harvard Supersite, Offspring Exams 6-8, Gen 3 Exams 1-2: ProtocolAir Pollution Data: Harvard Supersite, Offspring Exams 6-8, Gen 3 Exams 1-2: Version InfoAir Pollution Data: Particulate Matter 2.5 Model Annual Average, Offspring Exams 6-8, Gen 3 Exams 1-2: Coding ManualAir Pollution Data: Particulate Matter 2.5 Model Annual Average, Offspring Exams 6-8, Gen 3 Exams 1-2: DescriptionAir Pollution Data: Particulate Matter 2.5 Model Annual Average, Offspring Exams 6-8, Gen 3 Exams 1-2: ProtocolAir Pollution Data: Particulate Matter 2.5 Model Annual Average, Offspring Exams 6-8, Gen 3 Exams 1-2: Version Info Air Pollution Data: Particulate Matter 2.5 Model, Offspring Exams 6-8, Gen 3 Exams 1-2: Coding ManualAir Pollution Data: Particulate Matter 2.5 Model, Offspring Exams 6-8, Gen 3 Exams 1-2: DescriptionAir Pollution Data: Particulate Matter 2.5 Model, Offspring Exams 6-8, Gen 3 Exams 1-2: ProtocolAir Pollution Data: Particulate Matter 2.5 Model, Offspring Exams 6-8, Gen 3 Exams 1-2: Version InfoTrabecular Bone Scores, Offspring Exams 7.5, 8, Gen 3 Exam 2: Coding ManualTrabecular Bone Scores, Offspring Exams 7.5, 8, Gen 3 Exam 2: DescriptionTrabecular Bone Scores, Offspring Exams 7.5, 8, Gen 3 Exam 2: ProtocolTrabecular Bone Scores, Offspring Exams 7.5, 8, Gen 3 Exam 2: Version InfoEstimated Glomerular Filtration Rate, Original Exams 14-15, 20, 24-28; Offspring Exams 2, 5-9; Omni 1 Exams 2-4; Gen3, NOS, Omni 2 Exams 1-2: Coding ManualEstimated Glomerular Filtration Rate, Original Exams 14-15, 20, 24-28; Offspring Exams 2, 5-9; Omni 1 Exams 2-4; Gen3, NOS, Omni 2 Exams 1-2: DescriptionEstimated Glomerular Filtration Rate, Original Exams 14-15, 20, 24-28; Offspring Exams 2, 5-9; Omni 1 Exams 2-4; Gen3, NOS, Omni 2 Exams 1-2: ProtocolEstimated Glomerular Filtration Rate, Original Exams 14-15, 20, 24-28; Offspring Exams 2, 5-9; Omni 1 Exams 2-4; Gen3, NOS, Omni 2 Exams 1-2: Version InfoFood Frequency Nutrient Contributions, Generation 3 Exam 1: Annotated FormFood Frequency Nutrient Contributions, Generation 3 Exam 1: Coding ManualFood Frequency Nutrient Contributions, Generation 3 Exam 1: DescriptionFood Frequency Nutrient Contributions, Generation 3 Exam 1: Protocol 1Food Frequency Nutrient Contributions, Generation 3 Exam 1: Protocol 2Food Frequency Nutrient Contributions, Generation 3 Exam 1: Protocol 3Food Frequency Nutrient Contributions, Generation 3 Exam 1: Protocol 4Food Frequency Nutrient Contributions, Generation 3 Exam 1: Protocol 5Food Frequency Nutrient Contributions, Generation 3 Exam 1: Protocol 6Food Frequency Nutrient Contributions, Generation 3 Exam 1: Version InfoFood Frequency Nutrient Contributions, Gen 3 Exam 2, NOS Exam 2, Omni 2 Exam 2: Annotated FormFood Frequency Nutrient Contributions, Gen 3 Exam 2, NOS Exam 2, Omni 2 Exam 2: Coding ManualFood Frequency Nutrient Contributions, Gen 3 Exam 2, NOS Exam 2, Omni 2 Exam 2: DescriptionFood Frequency Nutrient Contributions, Gen 3 Exam 2, NOS Exam 2, Omni 2 Exam 2: Protocol 1Food Frequency Nutrient Contributions, Gen 3 Exam 2, NOS Exam 2, Omni 2 Exam 2: Protocol 2Food Frequency Nutrient Contributions, Gen 3 Exam 2, NOS Exam 2, Omni 2 Exam 2: Protocol 3Food Frequency Nutrient Contributions, Gen 3 Exam 2, NOS Exam 2, Omni 2 Exam 2: Protocol 4Food Frequency Nutrient Contributions, Gen 3 Exam 2, NOS Exam 2, Omni 2 Exam 2: Protocol 5Food Frequency Nutrient Contributions, Gen 3 Exam 2, NOS Exam 2, Omni 2 Exam 2: Protocol 6Food Frequency Nutrient Contributions, Gen 3 Exam 2, NOS Exam 2, Omni 2 Exam 2: Version InfoFood Frequency Nutrient Contributions, Offspring Exam 5: Annotated FormFood Frequency Nutrient Contributions, Offspring Exam 5: Coding ManualFood Frequency Nutrient Contributions, Offspring Exam 5: DescriptionFood Frequency Nutrient Contributions, Offspring Exam 5: Protocol 1Food Frequency Nutrient Contributions, Offspring Exam 5: Protocol 2Food Frequency Nutrient Contributions, Offspring Exam 5: Protocol 3Food Frequency Nutrient Contributions, Offspring Exam 5: Protocol 4Food Frequency Nutrient Contributions, Offspring Exam 5: Protocol 5Food Frequency Nutrient Contributions, Offspring Exam 5: Version InfoFood Frequency Nutrient Contributions, Offspring Exam 6: Annotated FormFood Frequency Nutrient Contributions, Offspring Exam 6: Coding ManualFood Frequency Nutrient Contributions, Offspring Exam 6: DescriptionFood Frequency Nutrient Contributions, Offspring Exam 6: Protocol 1Food Frequency Nutrient Contributions, Offspring Exam 6: Protocol 2Food Frequency Nutrient Contributions, Offspring Exam 6: Protocol 3Food Frequency Nutrient Contributions, Offspring Exam 6: Protocol 4Food Frequency Nutrient Contributions, Offspring Exam 6: Protocol 5Food Frequency Nutrient Contributions, Offspring Exam 6: Protocol 6Food Frequency Nutrient Contributions, Offspring Exam 6: Version InfoFood Frequency Nutrient Contributions, Offspring Exam 7: Annotated FormFood Frequency Nutrient Contributions, Offspring Exam 7: Coding ManualFood Frequency Nutrient Contributions, Offspring Exam 7: DescriptionFood Frequency Nutrient Contributions, Offspring Exam 7: Protocol 1Food Frequency Nutrient Contributions, Offspring Exam 7: Protocol 2Food Frequency Nutrient Contributions, Offspring Exam 7: Protocol 3Food Frequency Nutrient Contributions, Offspring Exam 7: Protocol 4Food Frequency Nutrient Contributions, Offspring Exam 7: Protocol 5Food Frequency Nutrient Contributions, Offspring Exam 7: Protocol 6Food Frequency Nutrient Contributions, Offspring Exam 7: Version InfoFood Frequency Nutrient Contributions, Offspring Exam 8: Annotated FormFood Frequency Nutrient Contributions, Offspring Exam 8: Coding ManualFood Frequency Nutrient Contributions, Offspring Exam 8: DescriptionFood Frequency Nutrient Contributions, Offspring Exam 8: Protocol 1Food Frequency Nutrient Contributions, Offspring Exam 8: Protocol 2Food Frequency Nutrient Contributions, Offspring Exam 8: Protocol 3Food Frequency Nutrient Contributions, Offspring Exam 8: Protocol 4Food Frequency Nutrient Contributions, Offspring Exam 8: Protocol 5Food Frequency Nutrient Contributions, Offspring Exam 8: Protocol 6Food Frequency Nutrient Contributions, Offspring Exam 8: Version InfoFood Frequency Nutrient Contributions, Offspring Exam 9, Omni 1 Exam 4: Annotated FormFood Frequency Nutrient Contributions, Offspring Exam 9, Omni 1 Exam 4: Coding ManualFood Frequency Nutrient Contributions, Offspring Exam 9, Omni 1 Exam 4: DescriptionFood Frequency Nutrient Contributions, Offspring Exam 9, Omni 1 Exam 4: Protocol 1Food Frequency Nutrient Contributions, Offspring Exam 9, Omni 1 Exam 4: Protocol 2Food Frequency Nutrient Contributions, Offspring Exam 9, Omni 1 Exam 4: Protocol 3Food Frequency Nutrient Contributions, Offspring Exam 9, Omni 1 Exam 4: Protocol 4Food Frequency Nutrient Contributions, Offspring Exam 9, Omni 1 Exam 4: Protocol 5Food Frequency Nutrient Contributions, Offspring Exam 9, Omni 1 Exam 4: Protocol 6Food Frequency Nutrient Contributions, Offspring Exam 9, Omni 1 Exam 4: Version InfoMedications Reported at Clinic Exam (ATC coded), Offspring Exam 10, Omni 1 Exam 5: Annotated FormMedications Reported at Clinic Exam (ATC coded), Offspring Exam 10, Omni 1 Exam 5: Coding ManualMedications Reported at Clinic Exam (ATC coded), Offspring Exam 10, Omni 1 Exam 5: Coding Manual SupplementMedications Reported at Clinic Exam (ATC coded), Offspring Exam 10, Omni 1 Exam 5: DescriptionMedications Reported at Clinic Exam (ATC coded), Offspring Exam 10, Omni 1 Exam 5: ProtocolMedications Reported at Clinic Exam (ATC coded), Offspring Exam 10, Omni 1 Exam 5: Version Info Neuropsychology Test Scores Performed by the FHS Brain Aging Program (BAP), All Cohorts through 2022: Protocol 2Neuropsychology Test Scores Performed by the FHS Neurology Group, All Cohorts through 2022: Annotated FormNeuropsychology Test Scores Performed by the FHS Neurology Group, All Cohorts through 2022: Coding ManualNeuropsychology Test Scores Performed by the FHS Neurology Group, All Cohorts through 2022: DescriptionNeuropsychology Test Scores Performed by the FHS Neurology Group, All Cohorts through 2022: ProtocolNeuropsychology Test Scores Performed by the FHS Neurology Group, All Cohorts through 2022: Version InfoQualitative Errors in Neuropsychological Exams, All Cohorts 2005-2021: Protocol 2Pacemaker Review (validated through medical records), All Cohorts through 2020: Annotated FormPacemaker Review (validated through medical records), All Cohorts through 2020: Coding ManualPacemaker Review (validated through medical records), All Cohorts through 2020: DescriptionPacemaker Review (validated through medical records), All Cohorts through 2020: ProtocolPacemaker Review (validated through medical records), All Cohorts through 2020: Version InfoParticipant Residence Relocation, Offspring Exams 6-8, Gen 3 Exams 1-2: Coding ManualParticipant Residence Relocation, Offspring Exams 6-8, Gen 3 Exams 1-2: DescriptionParticipant Residence Relocation, Offspring Exams 6-8, Gen 3 Exams 1-2: ProtocolParticipant Residence Relocation, Offspring Exams 6-8, Gen 3 Exams 1-2: Version InfoCognitive Function Test Mini Mental State Exam (MMSE), Offspring Exams 5-10, Omni 1 Exams 1-5: Protocol000000000000000000000000000000000000000000000000000000Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "None". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "None". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "None". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "None". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, BMI, height, former smoking, current smoking, packyears". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, BMI, height, former smoking, current smoking, packyears". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, BMI, height, former smoking, current smoking, packyears". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, BMI, height, former smoking, current smoking, packyears". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, BMI, height, former smoking, current smoking, packyears". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, BMI, height, former smoking, current smoking, packyears". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "None". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "None". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI, weekday sleep time". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI, weekday sleep time". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI, weekday sleep time, sleep-disordered breathing symptoms". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI, weekday sleep time, sleep-disordered breathing symptoms". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,waist4,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,waist4,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,xbmi,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,xbmi,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:age7,agesq7,bmi7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:age7,agesq7,bmi7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,waist4,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,waist4,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,xbmi,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,xbmi,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age23,agesq23,bmi23,smoke23,meno23; offcov:age6,agesq6,bmi6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age23,agesq23,bmi23,smoke23,meno23; offcov:age6,agesq6,bmi6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,bmi20,smoke20,meno20; offcov:age4,agesq4,bmi4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,bmi20,smoke20,meno20; offcov:age4,agesq4,bmi4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,bmi22,smoke22,meno22; offcov:age5,agesq5,bmi5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,bmi22,smoke22,meno22; offcov:age5,agesq5,bmi5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age23,agesq23,bmi23,smoke23,meno23; offcov:age6,agesq6,bmi6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age23,agesq23,bmi23,smoke23,meno23; offcov:age6,agesq6,bmi6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,waist4,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,waist4,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,xbmi,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,xbmi,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:age7,agesq7,bmi7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:age7,agesq7,bmi7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,xbmi,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,xbmi,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,bmi20,smoke20,meno20; offcov:age4,agesq4,bmi4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,bmi20,smoke20,meno20; offcov:age4,agesq4,bmi4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,bmi22,smoke22,meno22; offcov:age5,agesq5,bmi5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,bmi22,smoke22,meno22; offcov:age5,agesq5,bmi5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age23,agesq23,bmi23,smoke23,meno23; offcov:age6,agesq6,bmi6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age23,agesq23,bmi23,smoke23,meno23; offcov:age6,agesq6,bmi6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,waist4,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,waist4,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,xbmi,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,xbmi,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:age7,agesq7,bmi7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:age7,agesq7,bmi7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,waist4,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,waist4,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age23,agesq23,bmi23,smoke23,meno23; offcov:age6,agesq6,bmi6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age23,agesq23,bmi23,smoke23,meno23; offcov:age6,agesq6,bmi6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,bmi20,smoke20,meno20; offcov:age4,agesq4,bmi4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,bmi20,smoke20,meno20; offcov:age4,agesq4,bmi4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,bmi22,smoke22,meno22; offcov:age5,agesq5,bmi5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,bmi22,smoke22,meno22; offcov:age5,agesq5,bmi5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age23,agesq23,bmi23,smoke23,meno23; offcov:age6,agesq6,bmi6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age23,agesq23,bmi23,smoke23,meno23; offcov:age6,agesq6,bmi6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex, menopausal status, smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex, menopausal status, smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex, menopausal status, smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex, menopausal status, smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex, menopausal status, smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex, menopausal status, smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex, menopausal status, smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex, menopausal status, smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, sex, bmi". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, sex, bmi". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>This analysis scans human genome for association between genotypes and phenotypic trait as "HDL Offspring Exam 1". It is a part of the National Heart, Lung and Blood Institute (NHLBI) Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix.This analysis scans human genome for association between genotypes and phenotypic trait as "HDL Offspring Exam 1". It is a part of the National Heart, Lung and Blood Institute (NHLBI) Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix.This analysis scans human genome for association between genotypes and phenotypic trait as "HDL Offspring Exam 2". It is a part of the National Heart, Lung and Blood Institute (NHLBI) Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix.This analysis scans human genome for association between genotypes and phenotypic trait as "HDL Offspring Exam 2". It is a part of the National Heart, Lung and Blood Institute (NHLBI) Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix.This analysis scans human genome for association between genotypes and phenotypic trait as "HDL Offspring Exam 3". It is a part of the National Heart, Lung and Blood Institute (NHLBI) Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix.This analysis scans human genome for association between genotypes and phenotypic trait as "HDL Offspring Exam 3". It is a part of the National Heart, Lung and Blood Institute (NHLBI) Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix.This analysis scans human genome for association between genotypes and phenotypic trait as "HDL Offspring Exam 4". It is a part of the National Heart, Lung and Blood Institute (NHLBI) Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix.This analysis scans human genome for association between genotypes and phenotypic trait as "HDL Offspring Exam 4". It is a part of the National Heart, Lung and Blood Institute (NHLBI) Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix.This analysis scans human genome for association between genotypes and phenotypic trait as "HDL Offspring Exam 5". It is a part of the National Heart, Lung and Blood Institute (NHLBI) Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix.This analysis scans human genome for association between genotypes and phenotypic trait as "HDL Offspring Exam 5". It is a part of the National Heart, Lung and Blood Institute (NHLBI) Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix.This analysis scans human genome for association between genotypes and phenotypic trait as "HDL Offspring Exam 6". It is a part of the National Heart, Lung and Blood Institute (NHLBI) Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix.This analysis scans human genome for association between genotypes and phenotypic trait as "HDL Offspring Exam 6". It is a part of the National Heart, Lung and Blood Institute (NHLBI) Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix.This analysis scans human genome for association between genotypes and phenotypic trait as "HDL Offspring Exam 7". It is a part of the National Heart, Lung and Blood Institute (NHLBI) Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix.This analysis scans human genome for association between genotypes and phenotypic trait as "HDL Offspring Exam 7". It is a part of the National Heart, Lung and Blood Institute (NHLBI) Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix.This analysis scans human genome for association between genotypes and phenotypic trait as "HDL Offspring Exam 1". It is a part of the National Heart, Lung and Blood Institute (NHLBI) Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix.Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-adjusted separated by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-adjusted separated by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,smoking, diabetes, hypertension, Total cholesterol/HDL ratio, log triglyceride". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,smoking, diabetes, hypertension, Total cholesterol/HDL ratio, log triglyceride". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-adjusted separated by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-adjusted separated by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, smoking, diabetes, hypertension, Total cholesterol/HDL ratio, log triglyceride". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, smoking, diabetes, hypertension, Total cholesterol/HDL ratio, log triglyceride". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "adjusted for age, age2;regressions by sex; (stroke/dementia/oneuro excluded)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "adjusted for age, age2;regressions by sex; (stroke/dementia/oneuro excluded)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "adjusted for age, age2, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; (stroke/dementia/oneuro excluded)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "adjusted for age, age2, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; (stroke/dementia/oneuro excluded)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "adjusted for sex (stroke/dementia/oneuro excluded)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "adjusted for sex (stroke/dementia/oneuro excluded)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "adjusted for current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; (stroke/dementia/oneuro excluded)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "adjusted for current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; (stroke/dementia/oneuro excluded)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, Rx-adjusted SBP, BMI, Number of Cigarettes, HDL-C, total chol, Diabetes, logTG, and in women, menopausal status, hormone therapy (sex-specific)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, Rx-adjusted SBP, BMI, Number of Cigarettes, HDL-C, total chol, Diabetes, logTG, and in women, menopausal status, hormone therapy (sex-specific)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, Rx-adjusted SBP, BMI, Number of Cigarettes, HDL-C, total chol, Diabetes, logTG, and in women, menopausal status, hormone therapy (sex-specific)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, Rx-adjusted SBP, BMI, Number of Cigarettes, HDL-C, total chol, Diabetes, logTG, and in women, menopausal status, hormone therapy (sex-specific)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, Rx-adjusted SBP, BMI, Number of Cigarettes, HDL-C, total chol, Diabetes, logTG, and in women, menopausal status, hormone therapy (sex-specific)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, Rx-adjusted SBP, BMI, Number of Cigarettes, HDL-C, total chol, Diabetes, logTG, and in women, menopausal status, hormone therapy (sex-specific)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, Rx-adjusted SBP, BMI, Number of Cigarettes, HDL-C, total chol, Diabetes, logTG, and in women, menopausal status, hormone therapy (sex-specific)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, Rx-adjusted SBP, BMI, Number of Cigarettes, HDL-C, total chol, Diabetes, logTG, and in women, menopausal status, hormone therapy (sex-specific)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, Rx-adjusted SBP, BMI, Number of Cigarettes, HDL-C, total chol, Diabetes, logTG, and in women, menopausal status, hormone therapy (sex-specific)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, Rx-adjusted SBP, BMI, Number of Cigarettes, HDL-C, total chol, Diabetes, logTG, and in women, menopausal status, hormone therapy (sex-specific)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, Rx-adjusted SBP, BMI, Number of Cigarettes, HDL-C, total chol, Diabetes, logTG, and in women, menopausal status, hormone therapy (sex-specific)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, Rx-adjusted SBP, BMI, Number of Cigarettes, HDL-C, total chol, Diabetes, logTG, and in women, menopausal status, hormone therapy (sex-specific)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, BMI, current smoking, Diabetes, SBP, anti-HTN therapy, total-to-HDL Chol ratio, lipid therapy (sex-specific) ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, BMI, current smoking, Diabetes, SBP, anti-HTN therapy, total-to-HDL Chol ratio, lipid therapy (sex-specific) ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, BMI, current smoking, Diabetes, SBP, anti-HTN therapy, total-to-HDL Chol ratio, lipid therapy (sex-specific) ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, BMI, current smoking, Diabetes, SBP, anti-HTN therapy, total-to-HDL Chol ratio, lipid therapy (sex-specific) ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, BMI, current smoking, Diabetes, SBP, anti-HTN therapy, total-to-HDL Chol ratio, lipid therapy (sex-specific) ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, BMI, current smoking, Diabetes, SBP, anti-HTN therapy, total-to-HDL Chol ratio, lipid therapy (sex-specific) ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, DM, IFG, smoking, SBP, DBP, BMI, HTN Rx, menopausal status, HRT or OCPs, CVD, total cholesterol/HDL ratio, alcohol intake. ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, DM, IFG, smoking, SBP, DBP, BMI, HTN Rx, menopausal status, HRT or OCPs, CVD, total cholesterol/HDL ratio, alcohol intake. ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, DM, IFG, smoking, SBP, DBP, BMI, HTN Rx, menopausal status, HRT or OCP, CVD, total cholesterol/HDL ratio and alcohol intake. ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, DM, IFG, smoking, SBP, DBP, BMI, HTN Rx, menopausal status, HRT or OCP, CVD, total cholesterol/HDL ratio and alcohol intake. ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, DM, IFG, smoking, SBP, DBP, BMI, HTN Rx, CVD, total cholesterol/HDL ratio and alcohol intake. ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, DM, IFG, smoking, SBP, DBP, BMI, HTN Rx, CVD, total cholesterol/HDL ratio and alcohol intake. ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, smoking, menopausal status, thyroid hormone use". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, smoking, menopausal status, thyroid hormone use". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, smoking, menopausal status, thyroid hormone use". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, smoking, menopausal status, thyroid hormone use". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, smoking, menopausal status, thyroid hormone use". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, smoking, menopausal status, thyroid hormone use". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex, serum creatinine adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex, serum creatinine adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex, baseline creatinine adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex, baseline creatinine adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, baseline creatinine, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, baseline creatinine, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexserum creatinine adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexserum creatinine adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted;". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted;". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted;". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted;". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI;winsorized at 2.8". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI;winsorized at 2.8". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI; ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI; ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "ranked sex-specific cycle 7 cystatin-C ; age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "ranked sex-specific cycle 7 cystatin-C ; age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "ranked sex-specific cycle 7 cystatin-C; MV covariates include age, sex, DBP, HTN Rx, HDL, current smoking, Alcohol consumption per week man>14 women >7 yes/no, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "ranked sex-specific cycle 7 cystatin-C; MV covariates include age, sex, DBP, HTN Rx, HDL, current smoking, Alcohol consumption per week man>14 women >7 yes/no, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "All cancers except nonmelanoma skin cancer". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "All cancers except nonmelanoma skin cancer". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "All cancers except nonmelanoma skin cancer". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "All cancers except nonmelanoma skin cancer". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "All breast cancer, women only". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "All breast cancer, women only". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "All breast cancer, women only". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "All breast cancer, women only". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "All prostate cancer, men only". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "All prostate cancer, men only". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex, chol, HDL, smoking, DM, SBP, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex, chol, HDL, smoking, DM, SBP, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex, chol, HDL, smoking, DM, SBP, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex, chol, HDL, smoking, DM, SBP, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex (free of MI)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex (free of MI)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex, SBP, HTN Rx, DM, BMI (free of MI)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex, SBP, HTN Rx, DM, BMI (free of MI)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex, chol, HDL, smoking, DM, SBP, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex, chol, HDL, smoking, DM, SBP, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex, chol, HDL, smoking, DM, SBP, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex, chol, HDL, smoking, DM, SBP, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex (free of MI)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex (free of MI)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex, SBP, HTN Rx, DM, BMI (free of MI) ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex, SBP, HTN Rx, DM, BMI (free of MI) ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, RR (sex- and cohort-specific regression)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, RR (sex- and cohort-specific regression)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, RR (sex- and cohort-specific regression)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, RR (sex- and cohort-specific regression)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, RR (sex- and cohort-specific regression, standardized to mean 0, SD1)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, RR (sex- and cohort-specific regression, standardized to mean 0, SD1)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, RR (sex- and cohort-specific regression)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, RR (sex- and cohort-specific regression)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age (sex- and cohort-specific regression)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age (sex- and cohort-specific regression)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age (sex- and cohort-specific regression, standardized to mean 0, SD1)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age (sex- and cohort-specific regression, standardized to mean 0, SD1)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age (sex- and cohort-specific regression)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age (sex- and cohort-specific regression)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, HR (sex- and cohort-specific regression) log transformed". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, HR (sex- and cohort-specific regression) log transformed". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, HR (sex- and cohort-specific regression) log transformed". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, HR (sex- and cohort-specific regression) log transformed". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, HR (sex- and cohort-specific regression) log transformed". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, HR (sex- and cohort-specific regression) log transformed". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, HR (sex- and cohort-specific regression) log transformed". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, HR (sex- and cohort-specific regression) log transformed". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, HR (sex- and cohort-specific regression) log transformed". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, HR (sex- and cohort-specific regression) log transformed". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, HR (sex- and cohort-specific regression) log transformed". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, HR (sex- and cohort-specific regression) log transformed". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, HR (sex- and cohort-specific regression) log transformed". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, HR (sex- and cohort-specific regression) log transformed". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age at exam1, sex, BMI at exam1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age at exam1, sex, BMI at exam1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex, diabetes, SBP, valve disease". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Exam1: Age, sex, diabetes, SBP, valve disease". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age at exam1, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age at exam1, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age at exam1, number of childbirths". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age at exam1, number of childbirths". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age at exam1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age at exam1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, mean arterial pressure, Pulse Pressure, heart rate, diabetes, BMI, glucose, CVD, HRT, walk test, Total/HDL cholesterol, smoking w/in 6 hrs, hypertension, lipid Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, mean arterial pressure, Pulse Pressure, heart rate, diabetes, BMI, glucose, CVD, HRT, walk test, Total/HDL cholesterol, smoking w/in 6 hrs, hypertension, lipid Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, mean arterial pressure, Pulse Pressure, heart rate, diabetes, BMI, glucose, CVD, HRT, walk test, Total/HDL cholesterol, smoking w/in 6 hrs, hypertension, lipid Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, mean arterial pressure, Pulse Pressure, heart rate, diabetes, BMI, glucose, CVD, HRT, walk test, Total/HDL cholesterol, smoking w/in 6 hrs, hypertension, lipid Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, mean arterial pressure, Pulse Pressure, heart rate, diabetes, BMI, glucose, CVD, HRT, walk test, Total/HDL cholesterol, smoking w/in 6 hrs, hypertension, lipid Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, mean arterial pressure, Pulse Pressure, heart rate, diabetes, BMI, glucose, CVD, HRT, walk test, Total/HDL cholesterol, smoking w/in 6 hrs, hypertension, lipid Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, mean arterial pressure, Pulse Pressure, heart rate, diabetes, BMI, glucose, CVD, HRT, walk test, Total/HDL cholesterol, smoking w/in 6 hrs, hypertension, lipid Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, mean arterial pressure, Pulse Pressure, heart rate, diabetes, BMI, glucose, CVD, HRT, walk test, Total/HDL cholesterol, smoking w/in 6 hrs, hypertension, lipid Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, diabetes, current smoking, resting diastolic blood pressure, peak diastolic blood pressure, baseline heart rate, hypertension treatment, total/HDL cholesterol". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, diabetes, current smoking, resting diastolic blood pressure, peak diastolic blood pressure, baseline heart rate, hypertension treatment, total/HDL cholesterol". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, diabetes, current smoking, resting systolic blood pressure, baseline heart rate, hypertension treatment, total/HDL cholesterol". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, diabetes, current smoking, resting systolic blood pressure, baseline heart rate, hypertension treatment, total/HDL cholesterol". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, diabetes, current smoking, baseline heart rate, peak heart rate hypertension treatment, total/HDL cholesterol". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, diabetes, current smoking, baseline heart rate, peak heart rate hypertension treatment, total/HDL cholesterol". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, diabetes, current smoking, baseline heart rate, hypertension treatment, total/HDL cholesterol". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, diabetes, current smoking, baseline heart rate, hypertension treatment, total/HDL cholesterol". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, diabetes, current smoking, resting systolic blood pressure, peak systolic blood pressure, baseline heart rate, hypertension treatment, total/HDL cholesterol". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, diabetes, current smoking, resting systolic blood pressure, peak systolic blood pressure, baseline heart rate, hypertension treatment, total/HDL cholesterol". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, diabetes, current smoking, resting systolic blood pressure, baseline heart rate, hypertension treatment, total/HDL cholesterol". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, diabetes, current smoking, resting systolic blood pressure, baseline heart rate, hypertension treatment, total/HDL cholesterol". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-specific, adj for age, cohort, height, BMI, smoking, physical.activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-specific, adj for age, cohort, height, BMI, smoking, physical.activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Lin regr of Age on Log-OSS, height, BMI, menopause, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Lin regr of Age on Log-OSS, height, BMI, menopause, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Lin regr of Age on Log-OSS, height, BMI, menopause, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Lin regr of Age on Log-OSS, height, BMI, menopause, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Lin regr of Age on Log-OSS, height, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Lin regr of Age on Log-OSS, height, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex- specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex- specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex- specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex- specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex- specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex- specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex- specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex- specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex- specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex- specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex- specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex- specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2; regressions by sex Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2; regressions by sex Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Hippocampal volume: HPV is the sum of LHPV and RHPV, each of which is hippocampusvolume/ TCV". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Hippocampal volume: HPV is the sum of LHPV and RHPV, each of which is hippocampusvolume/ TCV". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Hippocampal volume to brain volume ratio: HPBVr is sum of LHPV and RHPV divided by TCB". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Hippocampal volume to brain volume ratio: HPBVr is sum of LHPV and RHPV divided by TCB". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Log white matter hyperintensity volume: Natural log of the ratio of segmented white matter hyperintensity (WMHI) to total cranial volume (TCV) ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Log white matter hyperintensity volume: Natural log of the ratio of segmented white matter hyperintensity (WMHI) to total cranial volume (TCV) ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Total cerebral brain volume: The ratio of supratentorial parenchymal brain volume (TCB) to intracranial volume (TCV)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Total cerebral brain volume: The ratio of supratentorial parenchymal brain volume (TCB) to intracranial volume (TCV)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-specific Birth cohort Education, FSRP, homocysteine, ApoE Linear Regression on participants without stroke, dementia, and other neuro". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-specific Birth cohort Education, FSRP, homocysteine, ApoE Linear Regression on participants without stroke, dementia, and other neuro". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-specific Birth cohort Education, FSRP, homocysteine, ApoE Linear Regression on participants without stroke, dementia, and other neuro". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-specific Birth cohort Education, FSRP, homocysteine, ApoE Linear Regression on participants without stroke, dementia, and other neuro". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-specific Birth cohort Education, FSRP, homocysteine, ApoE Linear Regression on participants without stroke, dementia, and other neuro". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-specific Birth cohort Education, FSRP, homocysteine, ApoE Linear Regression on participants without stroke, dementia, and other neuro". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-specific Birth cohort Education, FSRP, homocysteine, ApoE Linear Regression on participants without stroke, dementia, and other neuro". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-specific Birth cohort Education, FSRP, homocysteine, ApoE Linear Regression on participants without stroke, dementia, and other neuro". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-specific Birth cohort Education, FSRP, homocysteine, ApoE Linear Regression on participants without stroke, dementia, and other neuro". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-specific Birth cohort Education, FSRP, homocysteine, ApoE Linear Regression on participants without stroke, dementia, and other neuro". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-specific Birth cohort Education, FSRP, homocysteine, ApoE Linear Regression on participants without stroke, dementia, and other neuro". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-specific Birth cohort Education, FSRP, homocysteine, ApoE Linear Regression on participants without stroke, dementia, and other neuro". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "MMSE score at offspring exam 5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "MMSE score at offspring exam 5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Average MMSE score at offspring exams 5 & 7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Average MMSE score at offspring exams 5 & 7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Average MMSE score at offspring exams 5 & 7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Average MMSE score at offspring exams 5 & 7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "MMSE score at offspring exam 5 ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "MMSE score at offspring exam 5 ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "MMSE score at age 65". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "MMSE score at age 65". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "MMSE score at age 65". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "MMSE score at age 65". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "MMSE score at offspring exam 7 ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "MMSE score at offspring exam 7 ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "sex, age, age2, age3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "sex, age, age2, age3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "sex, age, age2, age3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "sex, age, age2, age3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "sex, age, age2, age3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "sex, age, age2, age3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Survival free of CVD, dementia & cancer at age 65". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Survival free of CVD, dementia & cancer at age 65". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Survival free of CVD, dementia & cancer at age 65". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Survival free of CVD, dementia & cancer at age 65". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Handgrip Offspring exam 7 ancillary & cohort exam 27; Linear Regression". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Handgrip Offspring exam 7 ancillary & cohort exam 27; Linear Regression". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Handgrip Offspring exam 7 ancillary; Linear Regression". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Handgrip Offspring exam 7 ancillary; Linear Regression". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Walking speed, offspring exam 7 ancillary, cohort 27; Linear Regression". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Walking speed, offspring exam 7 ancillary, cohort 27; Linear Regression". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Walking speed, Offspring exam 7 ancillary; Linear Regression". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Walking speed, Offspring exam 7 ancillary; Linear Regression". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age at natural menopause, cohort & offspring". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age at natural menopause, cohort & offspring". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age at natural menopause, cohort & offspring". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age at natural menopause, cohort & offspring". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age at Death". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age at Death". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age at death". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age at death". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Survival past the average life expectancy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Survival past the average life expectancy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Survival past the average life expectancy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Survival past the average life expectancy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-specific, adj for age, cohort, height, BMI, smoking, physical.activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-and cohort specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Adj for age, height, BMI, smoking, physical.activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Lin regr of Age on Log-OSS, height, BMI, menopause, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex- specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex- specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific Ranked residuals. Linear regression, adj for age, age2, HGT & BMI ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Cohort specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex- specific residuals. Linear regression, adj for age, height, BMI, smoking, physical activity, estrogen therapy". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2; regressions by sex; Stroke/oneuro/dementia excluded". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded; winsorized at 3.5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; Stroke/oneuro/dementia excluded; winsorized at 3.5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2; regressions by sex Stroke/oneuro/dementia excluded; winsorized at 3.5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2; regressions by sex; Stroke/oneuro/dementia excluded winsorized at 3.5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Hippocampal volume: HPV is the sum of LHPV and RHPV, each of which is hippocampusvolume/ TCV". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Hippocampal volume to brain volume ratio: HPBVr is sum of LHPV and RHPV divided by TCB". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Log white matter hyperintensity volume: Natural log of the ratio of segmented white matter hyperintensity (WMHI) to total cranial volume (TCV) ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Total cerebral brain volume: The ratio of supratentorial parenchymal brain volume (TCB) to intracranial volume (TCV)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-specific Birth cohort Education, FSRP, homocysteine, ApoE Linear Regression on participants without stroke, dementia, and other neuro - Winsorized Residuals". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-specific Birth cohort Education, FSRP, homocysteine, ApoE Linear Regression on participants without stroke, dementia, and other neuro - Winsorized Residuals". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-specific Birth cohort Education, FSRP, homocysteine, ApoE Linear Regression on participants without stroke, dementia, and other neuro - Winsorized Residuals". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-specific Birth cohort Education, FSRP, homocysteine, ApoE Linear Regression on participants without stroke, dementia, and other neuro - Winsorized Residuals". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-specific Birth cohort Education, FSRP, homocysteine, ApoE Linear Regression on participants without stroke, dementia, and other neuro - Winsorized Residuals". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Sex-specific Birth cohort Education, FSRP, homocysteine, ApoE Linear Regression on participants without stroke, dementia, and other neuro - Winsorized Residuals". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "sex, age, age2, age3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "sex, age, age2, age3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "sex, age, age2, age3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "sex, age, age2, age3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "sex, age, age2, age3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "sex, age, age2, age3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Handgrip Offspring exam 7 ancillary & cohort exam 27; Linear Regression". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Handgrip Offspring exam 7 ancillary; Linear Regression". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Walking speed, offspring exam 7 ancillary, cohort 27; Linear Regression". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Walking speed, Offspring exam 7 ancillary; Linear Regression". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age at natural menopause, cohort & offspring". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age at natural menopause, cohort & offspring". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, age squared, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, height, weight, smoking, systolic blood pressure, diastolic blood pressure, HTN Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, mean arterial pressure, Pulse Pressure, heart rate, diabetes, BMI, glucose, CVD, HRT, walk test, Total/HDL cholesterol, smoking w/in 6 hrs, hypertension, lipid Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, mean arterial pressure, Pulse Pressure, heart rate, diabetes, BMI, glucose, CVD, HRT, walk test, Total/HDL cholesterol, smoking w/in 6 hrs, hypertension, lipid Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, mean arterial pressure, Pulse Pressure, heart rate, diabetes, BMI, glucose, CVD, HRT, walk test, Total/HDL cholesterol, smoking w/in 6 hrs, hypertension, lipid Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, mean arterial pressure, Pulse Pressure, heart rate, diabetes, BMI, glucose, CVD, HRT, walk test, Total/HDL cholesterol, smoking w/in 6 hrs, hypertension, lipid Rx". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, diabetes, current smoking, resting diastolic blood pressure, peak diastolic blood pressure, baseline heart rate, hypertension treatment, total/HDL cholesterol". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, diabetes, current smoking, resting systolic blood pressure, baseline heart rate, hypertension treatment, total/HDL cholesterol". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, diabetes, current smoking, baseline heart rate, peak heart rate hypertension treatment, total/HDL cholesterol". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, diabetes, current smoking, baseline heart rate, hypertension treatment, total/HDL cholesterol". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, diabetes, current smoking, resting systolic blood pressure, peak systolic blood pressure, baseline heart rate, hypertension treatment, total/HDL cholesterol". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, diabetes, current smoking, resting systolic blood pressure, baseline heart rate, hypertension treatment, total/HDL cholesterol". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, sex, height, weight". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates ITBiomarkers. Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:age7,agesq7,bmi7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,waist4,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,xbmi,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age23,agesq23,bmi23,smoke23,meno23; offcov:age6,agesq6,bmi6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,bmi20,smoke20,meno20; offcov:age4,agesq4,bmi4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,bmi22,smoke22,meno22; offcov:age5,agesq5,bmi5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,waist4,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:age7,agesq7,bmi7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,xbmi,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,bmi20,smoke20,meno20; offcov:age4,agesq4,bmi4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,bmi22,smoke22,meno22; offcov:age5,agesq5,bmi5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age23,agesq23,bmi23,smoke23,meno23; offcov:age6,agesq6,bmi6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "coh and off cov:meanage,meanagsq,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,xbmi,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:age7,agesq7,bmi7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:meanage,meanagsq,age10,meansmok,meanmeno; offcov:meanage,meanagsq,age1,meansmok,meanmeno where mean=mean(of all available, max=7)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "no cohort; off cov:xage,xagesq,waist4,xsmoke,xmeno where x=mean(of all available, max=4)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age16,agesq16,smoke15,meno16; offcov:age2,agesq2,smoke2,meno2". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,smoke20,meno20; offcov:age4,agesq4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,smoke22,meno22; offcov:age5,agesq5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age23,agesq23,bmi23,smoke23,meno23; offcov:age6,agesq6,bmi6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age18,agesq18,smoke18,meno18; offcov:age3,agesq3,smoke3,meno3". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age12,agesq12,smoke12,meno12; offcov:age1,agesq1,smoke1,meno1". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age24,agesq24,smoke24,meno24; offcov:age6,agesq6,smoke6,meno6". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age26,agesq26,smoke26,meno26; offcov:age7,agesq7,smoke7,meno7". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age20,agesq20,bmi20,smoke20,meno20; offcov:age4,agesq4,bmi4,smoke4,meno4". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "cohcov:age22,agesq22,bmi22,smoke22,meno22; offcov:age5,agesq5,bmi5,smoke5,meno5". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex, menopausal status, smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex, menopausal status, smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex, menopausal status, smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age2, sex, menopausal status, smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,age^2,bmi, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, meanbmi, meanalc, meansmk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " meanage, meanage2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, bmi, alc, smk, meno, HRT separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates " age, age2, separately by gender". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, RR (sex- and cohort-specific regression)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, RR (sex- and cohort-specific regression)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, RR (sex- and cohort-specific regression, standardized to mean 0, SD1)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, RR (sex- and cohort-specific regression)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age (sex- and cohort-specific regression)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age (sex- and cohort-specific regression, standardized to mean 0, SD1)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age (sex- and cohort-specific regression)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, HR (sex- and cohort-specific regression) log transformed". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, HR (sex- and cohort-specific regression) log transformed". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, HR (sex- and cohort-specific regression) log transformed". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "None". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "None". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, height, height squared, packyears at first exam, interim packyears, sustained smoking". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, BMI, height, former smoking, current smoking, packyears". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, BMI, height, former smoking, current smoking, packyears". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, age squared, BMI, height, former smoking, current smoking, packyears". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for current/former smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust percent predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "residuals after 2-stage modeling: 1) predicted trait based on age, age2, height2; 2) adjust residual from predicted for former smoking, current smoking, packyears, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "None". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI, weekday sleep time". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "Age, sex, BMI, weekday sleep time, sleep-disordered breathing symptoms". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, DM, IFG, smoking, SBP, DBP, BMI, HTN Rx, menopausal status, HRT or OCPs, CVD, total cholesterol/HDL ratio, alcohol intake. ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, DM, IFG, smoking, SBP, DBP, BMI, HTN Rx, menopausal status, HRT or OCP, CVD, total cholesterol/HDL ratio and alcohol intake. ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, DM, IFG, smoking, SBP, DBP, BMI, HTN Rx, CVD, total cholesterol/HDL ratio and alcohol intake. ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, smoking, menopausal status, thyroid hormone use". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, smoking, menopausal status, thyroid hormone use". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, BMI, smoking, menopausal status, thyroid hormone use". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex, serum creatinine adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex, baseline creatinine adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, baseline creatinine, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexserum creatinine adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted;". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted;". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI;winsorized at 2.8". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI; ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sexadjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, sex, SBP, HTN Rx, HDL, smoking, DM, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "ranked sex-specific cycle 7 cystatin-C ; age-sex adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "ranked sex-specific cycle 7 cystatin-C; MV covariates include age, sex, DBP, HTN Rx, HDL, current smoking, Alcohol consumption per week man>14 women >7 yes/no, BMI". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-adjusted separated by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age,smoking, diabetes, hypertension, Total cholesterol/HDL ratio, log triglyceride". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age-adjusted separated by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, smoking, diabetes, hypertension, Total cholesterol/HDL ratio, log triglyceride". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "adjusted for age, age2;regressions by sex; (stroke/dementia/oneuro excluded)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "adjusted for age, age2, current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; (stroke/dementia/oneuro excluded)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "adjusted for sex (stroke/dementia/oneuro excluded)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "adjusted for current smoking status, diabetes, SBP, anti-HTN therapy, Afib and EKG-LVH at exam 7, 26; regressions by sex; (stroke/dementia/oneuro excluded)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, Rx-adjusted SBP, BMI, Number of Cigarettes, HDL-C, total chol, Diabetes, logTG, and in women, menopausal status, hormone therapy (sex-specific)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, Rx-adjusted SBP, BMI, Number of Cigarettes, HDL-C, total chol, Diabetes, logTG, and in women, menopausal status, hormone therapy (sex-specific)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, Rx-adjusted SBP, BMI, Number of Cigarettes, HDL-C, total chol, Diabetes, logTG, and in women, menopausal status, hormone therapy (sex-specific)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, Rx-adjusted SBP, BMI, Number of Cigarettes, HDL-C, total chol, Diabetes, logTG, and in women, menopausal status, hormone therapy (sex-specific)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, Rx-adjusted SBP, BMI, Number of Cigarettes, HDL-C, total chol, Diabetes, logTG, and in women, menopausal status, hormone therapy (sex-specific)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, Rx-adjusted SBP, BMI, Number of Cigarettes, HDL-C, total chol, Diabetes, logTG, and in women, menopausal status, hormone therapy (sex-specific)". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, BMI, current smoking, Diabetes, SBP, anti-HTN therapy, total-to-HDL Chol ratio, lipid therapy (sex-specific) ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, separately by sex". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, BMI, current smoking, Diabetes, SBP, anti-HTN therapy, total-to-HDL Chol ratio, lipid therapy (sex-specific) ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "age, BMI, current smoking, Diabetes, SBP, anti-HTN therapy, total-to-HDL Chol ratio, lipid therapy (sex-specific) ". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "MMSE score, offspring exam 7, multivariable-adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>Framingham Heart Study project and conducted by researchers from NHLBI and Boston University School of Medicine. This genetic epidemiological research applies population-based longitudinal cohort design and the trait is adjusted for confounding covariates "MMSE score, offspring exam 7, multivariable-adjusted". Genotyping was performed by Dr. Norman Gerry in the Genetics and Genomics Department at Boston University using GeneChip Human Mapping 100K microarrays from Affymetrix. ]]>This analysis of transmission distortion in the Framingham Heart Study (FHS) was performed by Wynn K. Meyer. A detailed description of the methods and results may be found in: Meyer W.K., Arbeithuber B., Ober C., Ebner T., et al., 2012 Evaluating the Evidence for Transmission Distortion in Human Pedigrees. Genetics 191: 215-232. This analysis contained 4,395 individuals in 2,362 trios and was based on all maternal transmissions. Genotyping was conducted by FHS using the GeneChip Human Mapping 500K Array Set (Affymetrix).This analysis of transmission distortion in the Framingham Heart Study (FHS) was performed by Wynn K. Meyer. A detailed description of the methods and results may be found in: Meyer W.K., Arbeithuber B., Ober C., Ebner T., et al., 2012 Evaluating the Evidence for Transmission Distortion in Human Pedigrees. Genetics 191: 215-232. This analysis contained 4,395 individuals in 2,362 trios and was based on all paternal transmissions. Genotyping was conducted by FHS using the GeneChip Human Mapping 500K Array Set (Affymetrix).This analysis of transmission distortion in the Framingham Heart Study (FHS) was performed by Wynn K. Meyer. A detailed description of the methods and results may be found in: Meyer W.K., Arbeithuber B., Ober C., Ebner T., et al., 2012 Evaluating the Evidence for Transmission Distortion in Human Pedigrees. Genetics 191: 215-232. This analysis contained 4,395 individuals in 2,362 trios and was based on all paternal and maternal transmissions combined. Genotyping was conducted by FHS using the GeneChip Human Mapping 500K Array Set (Affymetrix).The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>The study of low frequency and potentially functional variants may refine and expand our understanding of the genetic determinants of circulating metabolite levels. To that end, we analyzed the association between 217 plasma metabolites and exome variants captured on the Illumina HumanExome Beadchip in 2,076 participants in the Framingham Heart Study (FHS).The Framingham Heart Study (FHS) Offspring cohort is a prospective, observational, community-based cohort. The participants are primarily Caucasian. These children of the initial FHS participants and their spouses were recruited in 1971 and have been followed with serial examinations. A total of 2,076 Offspring participants who attended the fifth examination (1991-1995) and underwent metabolite profiling and exome array genotyping were included in this analysis. ]]>A description of the Design of the Original Cohort can be found at Dawber TR, Meadors GF, and Moore FEJ. Epidemiological approaches to heart disease: the Framingham Study. Am J Public Health 1951; 41:279-86. A description of the Design of the Offspring Cohort can be found at Feinleib M, Kannel WB, Garrison RJ, et al. (1975) The Framingham Offspring Study. Design and preliminary data. Prev Med 4:518-25. A description of the Design of the Third Generation Cohort can be found at Splansky GL et al. The Third Generation Cohort of the National Heart, Lung, and Blood Institute's Framingham Heart Study: Design, Recruitment, and Initial Examination. Am J Epidemioly 2007; 165(11):1328-35.]]> Research milestones of the Framingham Heart Study can be found at https://framinghamheartstudy.org/fhs-about/research-milestones/. The Generation 1 (or Original) cohort Exam 1 took place between 1948 and 1953. Biennial exams have continued to the present. Exam 29 took place between 2006 and 2007. Exam 30 began in 2008. The Generation 2 (or Offspring) cohort Exam 1 took place between 1971 and 1975. This cohort on average has been examined every three to four years. However, there was an eight year gap between Exam 1 and Exam 2 and a seven year gap between Exam 7 and Exam 8. Exam 8 took place between 2005 and 2008. The Generation 3 cohort Exam 1 took place between 2002 and 2005. Exam 2 began in 2008. The New Offspring Spouse cohort Exam 1 took place between 2003 and 2005. Exam 2 began in 2008.]]>