Fabrication, characterization and wound-healing properties of core–shell SF@chitosan/ZnO/Astragalus arbusculinus gum nanofibers

Percutaneous coronary intervention with implantation of second-generation drug-eluting stents (DES) has emerged as a mainstay for the treatment of obstructive coronary artery disease given its beneficial impact on clinical outcomes in these patients. Everolimus-eluting stents (EES) are one of the most frequently implanted second-generation DES; their use for the treatment of a wide range of patients including those with complex coronary lesions is supported by compelling evidence. Although newer stent platforms such as biodegradable polymer DES may lower local vessel inflammation, their efficacy and safety have not yet surpassed that of Xience stents. This article summarizes the properties of the Xience family of EES and the evidence supporting their use across diverse patient demographics and coronary lesion morphologies. <b>Plain language summary: </b>Patients with coronary artery disease (CAD) often require treatment for symptoms caused by blockages in coronary arteries. In addition to medical therapy, available procedure options include either coronary artery bypass grafting, a major heart surgery or percutaneous coronary intervention (PCI) with stenting. PCI is a minimally invasive procedure where ametallic stent (ameshmade up of fine metallic network in a tube shape used to keep vessels open) is advanced over a wire through an artery to open the coronary artery blockage. Over the past few decades, improvements in procedure technique and stent material have made PCI a highly safe and efficacious procedure. A newer generation of stents, known as drug-eluting stents (DES), have been developed in which metallic struts are covered with a highly biocompatible polymer (a thin material coating over the metallic mesh) that releases drugs at the blockage site to prevent local cell growth in the vessel wall. Among the second-generation DES, Xience everolimus-eluting stents (EES) have shown better outcomes compared with earlier generations of stents. Another version of DES with biodegradable polymer coating is emerging but their advantage over EES remains uncertain. Currently, Xience EES are one of the most commonly used stents to treat CAD. This manuscript covers an in-depth review of clinical evidence on the performance of Xience stents in a diverse range patient populations.