The process of osteogenesis generates the bone tissues that make up our skeletons. There is a huge demand for orthopedic implants that replace our bones when damaged, which makes up a $37 billion market. Accordingly, there is significant interest in developing biomaterials that enable these types of implants to perform better and remain functional longer after implantation. Oftentimes, these materials work by modulating the function of the immune system based on their specific composition. Other strategies to improve implant performance include modifying the surfaces of these implants for enhanced biocompatibility and developing coatings that prevent infections from occurring.
This Research Topic covers innovative approaches to developing biomaterials that promote osteogenesis. Such materials can be used as implants to replace broken and damaged bones. Potential topics range from novel surface modifications, new treatment techniques, and innovative materials relating to osteogenesis and orthopedic implants.
For this collection, we invite submissions around the themes of:
• Novel osteogenic materials
• Innovative surface treatments to improve implant performance
• New methods for preventing infection post-implantation
The process of osteogenesis generates the bone tissues that make up our skeletons. There is a huge demand for orthopedic implants that replace our bones when damaged, which makes up a $37 billion market. Accordingly, there is significant interest in developing biomaterials that enable these types of implants to perform better and remain functional longer after implantation. Oftentimes, these materials work by modulating the function of the immune system based on their specific composition. Other strategies to improve implant performance include modifying the surfaces of these implants for enhanced biocompatibility and developing coatings that prevent infections from occurring.
This Research Topic covers innovative approaches to developing biomaterials that promote osteogenesis. Such materials can be used as implants to replace broken and damaged bones. Potential topics range from novel surface modifications, new treatment techniques, and innovative materials relating to osteogenesis and orthopedic implants.
For this collection, we invite submissions around the themes of:
• Novel osteogenic materials
• Innovative surface treatments to improve implant performance
• New methods for preventing infection post-implantation