Add to ORKGMagnesium (Mg) based alloys are the most advanced cardiovascular stent materials. This new generation of stent scaffold is currently under clinical evaluation with encouraging outcomes. All these Mg alloys contain a certain amount of rare earth (RE) elements though the exact composition is not yet disclosed. RE alloying can usually enhance the mechanical strength of different metal alloys but their toxicity might be an issue for medical applications. It is still unclear how RE elements will affect the magnesium (Mg) alloys intended for stent materials as a whole. In this study, we evaluated MgZnCaY-1RE, MgZnCaY-2RE, MgYZr-1RE, and MgZnYZr-1RE alloys for cardiovascular stents applications regarding their mechanical strength, corrosion resist...
As bioabsorbable materials, magnesium alloys are expected to be totally degraded in the body and the...
Magnesium and its alloys are light weight, biodegradable materials. They can be used as metal implan...
Bioabsorbable materials are fairly new and proper alloys for implantation in the body have not yet b...
Magnesium (Mg) based alloys are the most advanced cardiovascular stent materials. This new generatio...
Magnesium (Mg) alloys are promising scaffolds for the next generation of cardiovascular stents becau...
Abstract: Magnesium (Mg) alloys are promising scaffolds for the next generation of cardiovascular st...
Mg-Li-based alloys were investigated for future cardiovascular stent application as they possess exc...
Bioabsorbable vascular stents in magnesium alloys provide an attractive alternative to standard stai...
Magnesium (Mg) and its alloys, as potential biodegradable materials, have drawn wide attention in th...
Over the past two decades, significant advancements have been made regarding the material formulatio...
The search for biodegradable metals with mechanical properties equal or higher to those of currently...
In medicine, stents are inserted into an artery to prevent local constrictions to blood flow. Common...
Being biocompatible and biodegradable, magnesium alloys are considered as the new generation biomedi...
Rare earth elements are promising alloying element candidates for magnesium alloys used as biodegrad...
Metal stents are used as base material for fabrication of medical devices to support and improve the...
As bioabsorbable materials, magnesium alloys are expected to be totally degraded in the body and the...
Magnesium and its alloys are light weight, biodegradable materials. They can be used as metal implan...
Bioabsorbable materials are fairly new and proper alloys for implantation in the body have not yet b...
Magnesium (Mg) based alloys are the most advanced cardiovascular stent materials. This new generatio...
Magnesium (Mg) alloys are promising scaffolds for the next generation of cardiovascular stents becau...
Abstract: Magnesium (Mg) alloys are promising scaffolds for the next generation of cardiovascular st...
Mg-Li-based alloys were investigated for future cardiovascular stent application as they possess exc...
Bioabsorbable vascular stents in magnesium alloys provide an attractive alternative to standard stai...
Magnesium (Mg) and its alloys, as potential biodegradable materials, have drawn wide attention in th...
Over the past two decades, significant advancements have been made regarding the material formulatio...
The search for biodegradable metals with mechanical properties equal or higher to those of currently...
In medicine, stents are inserted into an artery to prevent local constrictions to blood flow. Common...
Being biocompatible and biodegradable, magnesium alloys are considered as the new generation biomedi...
Rare earth elements are promising alloying element candidates for magnesium alloys used as biodegrad...
Metal stents are used as base material for fabrication of medical devices to support and improve the...
As bioabsorbable materials, magnesium alloys are expected to be totally degraded in the body and the...
Magnesium and its alloys are light weight, biodegradable materials. They can be used as metal implan...
Bioabsorbable materials are fairly new and proper alloys for implantation in the body have not yet b...