Magnesium alloy coronary stent becomes a hot research topic due to its biodegradable
character for avoiding late thrombosis and late restenosis. However, fracture of Mg alloy …

Biodegradable magnesium (Mg) alloys are expected to be promising materials for
cardiovascular stents (CVS), which can avoid the long-term clinical problems of current CVS …

Magnesium alloys have gained great attention as biodegradable materials for stent
applications. Cardiovascular stents are continuously exposed to different types of …

Biodegradable magnesium alloy with proper yield strength, high ultimate strength and
elongation is a potential candidate for cardiovascular stent. Nevertheless, magnesium alloy …

Magnesium alloy stents have been extensively studied in the field of biodegradable metal
stents due to their exceptional biocompatibility, biodegradability and excellent …

Abstract An Mg-2Zn-0.6 Zr-0.6 Nd alloy for biodegradable cardiovascular stent applications
was prepared through indirect extrusion. The alloy exhibited a superior combination of …

AZ31 magnesium coronary stents were studied through a manufacturing process chain
involving laser cutting, acid pickling, and dip coating. The purpose of this study was to …

Although the drug-eluting stent (DES) has become the standard for percutaneous coronary
intervention (PCI)-based revascularization, concerns remain regarding the use of DES …

Biodegradable stents made of magnesium alloys have become revolutionary in the
cardiovascular area. However, rapid corrosion in a body fluid environment is harmful to the …

Mg alloy AZ31 is an attractive candidate for coronary artery stents, as it possesses excellent
biocompatibility in human body and good mechanical properties. However, AZ31 …