TY - BOOK ID - 138734739 TI - Design of Materials for Bone Tissue Scaffolds PY - 2022 PB - Basel MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - starfish KW - calcium carbonate KW - porous calcium phosphate KW - β-tricalcium phosphate KW - bone substitute KW - angiogenesis KW - gellan gum KW - hydroxyapatite KW - lactoferrin KW - bone biomaterials KW - tissue engineering KW - biomaterials KW - mechanobiology KW - scaffold design KW - geometry optimization KW - bone repair KW - biomaterial KW - alcoholism KW - alcohol KW - geometry optimization of scaffolds KW - allograft KW - block bone grafts KW - custom made bone KW - design techniques for scaffold KW - precision and translational medicine KW - bone regeneration KW - graphene oxide KW - mesenchymal stem and progenitor cells KW - osteogenic differentiation KW - poly(methyl methacrylate) KW - computational mechanobiology KW - bone tissue engineering KW - python code KW - parametric CAD (Computer Aided Design) model KW - bone KW - mesenchymal stem cells KW - polycarbonate KW - resveratrol KW - polydatin KW - focal adhesions KW - bone health KW - bacterial cellulose KW - nanoAg KW - antimicrobial composite KW - porous implants KW - bone implants KW - metamaterials KW - titanium KW - mechanical properties KW - pore size KW - unit cell KW - porosity KW - elastic modulus KW - compressive strength KW - additive manufacturing KW - animal model KW - bone fracture KW - bone healing KW - posterolateral spinal fusion KW - regenerative medicine KW - bone morphogenetic proteins KW - cell growth KW - polylysine KW - dental implants KW - implantology KW - epithelial growth KW - porous materials UR - https://www.unicat.be/uniCat?func=search&query=sysid:138734739 AB - 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. ER -