Magnesium (Mg) and its alloys, as potential biodegradable materials, have drawn wide
attention in the cardiovascular stent field because of their appropriate mechanical properties …

Cardiovascular stents are life‐saving devices and one of the top ten medical breakthroughs
of the 21st century. Decades of research and clinical trials have taught us about the effects of …

The new principle and technique to tune biodegradation rates of biomaterials is one of the
keys to the development of regenerative medicine and next-generation biomaterials …

Magnesium and its alloy have good mechanical properties and biodegradability, and have
become the hotspot of the next-generation biodegradable vascular stent materials …

Antithrombogenicity, anti-inflammation, and rapid re-endothelialization are central
requirements for the long-term success of cardiovascular stents. In this work, a plant-inspired …

Magnesium (Mg) and its alloys are promising materials for biodegradable drug-eluting stent
applications, but their rapid corrosion remains a major challenge for clinical practice …

In recent years, biodegradable metallic materials, such as Mg-, Fe-, Zn-and W-based
materials, have been the focus of many studies. As one of the two most studied types of …

To reasonably use hydrogels in healthcare field, this study four kinds of chitosan (CTS)-
based hydrogels with different molecular structures. With plasma etching, the morphology …

Magnesium (Mg) alloys are promising biodegradable materials but challenges remain due
to their rapid degradation, especially in the potential use of Mg alloys as vascular stents …

The magnesium (Mg) alloy is considered as one of the most promising metal materials for
cardiovascular or bone stents. However, challenges still remain in its rapid degradation in …