Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

The book proposes extensive and varied design strategies for bone tissue engineering. The design process of materials for bone tissue scaffolds presently represents an issue of crucial importance and is being studied by many researchers throughout the world. A number of studies have been conducted, aimed at identifying the optimal material, geometry, and surface that the scaffold must possess to stimulate the formation of the largest amounts of bone in the shortest time possible.

Medicine --- starfish --- calcium carbonate --- porous calcium phosphate --- β-tricalcium phosphate --- bone substitute --- angiogenesis --- gellan gum --- hydroxyapatite --- lactoferrin --- bone biomaterials --- tissue engineering --- biomaterials --- mechanobiology --- scaffold design --- geometry optimization --- bone repair --- biomaterial --- alcoholism --- alcohol --- geometry optimization of scaffolds --- allograft --- block bone grafts --- custom made bone --- design techniques for scaffold --- precision and translational medicine --- bone regeneration --- graphene oxide --- mesenchymal stem and progenitor cells --- osteogenic differentiation --- poly(methyl methacrylate) --- computational mechanobiology --- bone tissue engineering --- python code --- parametric CAD (Computer Aided Design) model --- bone --- mesenchymal stem cells --- polycarbonate --- resveratrol --- polydatin --- focal adhesions --- bone health --- bacterial cellulose --- nanoAg --- antimicrobial composite --- porous implants --- bone implants --- metamaterials --- titanium --- mechanical properties --- pore size --- unit cell --- porosity --- elastic modulus --- compressive strength --- additive manufacturing --- animal model --- bone fracture --- bone healing --- posterolateral spinal fusion --- regenerative medicine --- bone morphogenetic proteins --- cell growth --- polylysine --- dental implants --- implantology --- epithelial growth --- porous materials

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

The book proposes extensive and varied design strategies for bone tissue engineering. The design process of materials for bone tissue scaffolds presently represents an issue of crucial importance and is being studied by many researchers throughout the world. A number of studies have been conducted, aimed at identifying the optimal material, geometry, and surface that the scaffold must possess to stimulate the formation of the largest amounts of bone in the shortest time possible.

Medicine --- starfish --- calcium carbonate --- porous calcium phosphate --- β-tricalcium phosphate --- bone substitute --- angiogenesis --- gellan gum --- hydroxyapatite --- lactoferrin --- bone biomaterials --- tissue engineering --- biomaterials --- mechanobiology --- scaffold design --- geometry optimization --- bone repair --- biomaterial --- alcoholism --- alcohol --- geometry optimization of scaffolds --- allograft --- block bone grafts --- custom made bone --- design techniques for scaffold --- precision and translational medicine --- bone regeneration --- graphene oxide --- mesenchymal stem and progenitor cells --- osteogenic differentiation --- poly(methyl methacrylate) --- computational mechanobiology --- bone tissue engineering --- python code --- parametric CAD (Computer Aided Design) model --- bone --- mesenchymal stem cells --- polycarbonate --- resveratrol --- polydatin --- focal adhesions --- bone health --- bacterial cellulose --- nanoAg --- antimicrobial composite --- porous implants --- bone implants --- metamaterials --- titanium --- mechanical properties --- pore size --- unit cell --- porosity --- elastic modulus --- compressive strength --- additive manufacturing --- animal model --- bone fracture --- bone healing --- posterolateral spinal fusion --- regenerative medicine --- bone morphogenetic proteins --- cell growth --- polylysine --- dental implants --- implantology --- epithelial growth --- porous materials