Stronger zinc alloys for more flexible biodegradable stents. This project aims to develop stronger zinc alloys for a new class of biodegradable metallic stents. A key challenge for biodegradable stent technology is to make stents as thin as possible while also being strong. This project will develop ultra-high strength zinc alloys that can be used to fabricate thinner biodegradable stents for easier surgical operation. The project outcomes should be a major step in the design and development of ....Stronger zinc alloys for more flexible biodegradable stents. This project aims to develop stronger zinc alloys for a new class of biodegradable metallic stents. A key challenge for biodegradable stent technology is to make stents as thin as possible while also being strong. This project will develop ultra-high strength zinc alloys that can be used to fabricate thinner biodegradable stents for easier surgical operation. The project outcomes should be a major step in the design and development of a new generation of biodegradable stents that will avoid the risks associated with existing products and potentially create a better life for millions of patients worldwide.Read moreRead less
Functional Strontium Phosphate Coated Magnesium Alloys For ?Orthopaedic Use. This project aims to develop a functional strontium-release surface on magnesium-based orthopaedic implants to suppress the rapid degradation rate of magnesium, facilitate new bone formation and ultimately shorten the healing process. The development of practical, bone-favourable and degradation-inhibiting surfaces for magnesium implants are in demand and can bring significant patient benefits. The project seeks to esta ....Functional Strontium Phosphate Coated Magnesium Alloys For ?Orthopaedic Use. This project aims to develop a functional strontium-release surface on magnesium-based orthopaedic implants to suppress the rapid degradation rate of magnesium, facilitate new bone formation and ultimately shorten the healing process. The development of practical, bone-favourable and degradation-inhibiting surfaces for magnesium implants are in demand and can bring significant patient benefits. The project seeks to establish an understanding of the formation mechanisms of strontium-releasing coatings and determine the critical release rate of strontium to activate bone cell responses.Read moreRead less