This book highlights the latest, cutting-edge advances in implantable biomaterials. It brings together a class of advanced biomaterials in two highly active research areas, namely implants and tissue scaffolds, to underline their respective functional requirements for further development. It is unique in providing a full range of methodological procedures, including materials syntheses, characterisation, cellular tests and mathematical modelling. Covering metallic, ceramic, polymeric and composite materials commonly used in biological applications and clinical therapeutics, it is a valuable resource for anyone wanting to further their understanding of the latest developments in implantable biomaterials. Focusing on biomedical applications in implants and scaffolds, it provides methodological guides to this rapidly growing field.��Qing Li and Yiu-Wing Mai are both professors at the University of Sydney School of Aerospace, Mechanical and Mechatronic Engineering.�
Multiscale Modelling and Simulation of Musculoskeletal Tissues for Orthopaedics.- Performance Evaluation of Bone-Implant System during Implantation Process - Dynamic Modelling and Analysis.- Multiscale Remodelling and Topographical Optimisation for Porous Implant Surface Morphology Design.- Implant Surface Modifications and Osseointegration.- Advances in Bioglass and Glass Ceramics for Biomedical Applications.- Clinical Resurfacing of Feldspar and Leucite Glass Ceramics Using Dental Handpieces and Burs.- Polymer Blends and Composites for Biomedical Applications.- Electrospun Polymer Scaffolds: Their biomedical and Mechanical Properties.- Electrospun Nanofibrous Scaffolds for Soft Tissue Regeneration.- Biomimic Design of Periosteum: Construction Strategies, Scaffold Design and Cell Sources.- Characterisation of Hydrogel Scaffolds under Compression.- Computational Design for Scaffold Tissue Engineering.- Bioactive Scaffolds with Multifunctional Properties for Hard Tissue Regeneratio
ns.- Challenges for Cartilage Regeneration.�
Multiscale Modelling and Simulation of Musculoskeletal Tissues for
Orthopaedics.- Performance Evaluation of Bone-Implant System during
Implantation Process - Dynamic Modelling and Analysis.- Multiscale
Remodelling and Topographical Optimisation for Porous Implant Surface
Morphology Design.- Implant Surface Modifications and
Osseointegration.- Advances in Bioglass and Glass Ceramics for Biomedical
Applications.- Clinical Resurfacing of Feldspar and Leucite Glass Ceramics
Using Dental Handpieces and Burs.- Polymer Blends and Composites for
Biomedical Applications.- Electrospun Polymer Scaffolds: Their biomedical and
Mechanical Properties.- Electrospun Nanofibrous Scaffolds for Soft Tissue
Regeneration.- Biomimic Design of Periosteum: Construction Strategies,
Scaffold Design and Cell Sources.- Characterisation of Hydrogel Scaffolds
under Compression.- Computational Design for Scaffold Tissue
Engineering.- Bioactive Scaffolds with Multifunctional Properties for Hard
Tissue Regenerations.- Challenges for Cartilage Regeneration.
Dr. Qing Li received his PhD from the University of Sydney, Australia in 2000. He previously worked at Cornell University (USA) and James Cook University (Australia). Qing Li is currently a Professor in biomedical engineering at the University of Sydney. Dr. Qing Li has proven expertise in computational biomechanics and biomaterials with focuses on implants and scaffolds. In his career, he has been awarded an Australian Postdoctoral Fellowship (2001-03) and a Future Fellowship (2013-17), respectively, by Australian Research Council.
Professor Yiu-Wing Mai is a mechanical engineering alumnus of the University of Hong Kong graduated BSc (Eng) & Williamson Prizeman in 1969, PhD in 1972 and DSc in 1999. He also obtained DEng from the University of Sydney in 1999. He previously worked in the US (University of Michigan and NIST), the UK (Imperial College) and Hong Kong (HKUST, CityU, HKU and PolyU). Prof Mai is currently University Chair and Professor of Mechanical Engineeringat the University of Sydney. Prof Mai is a highly cited researcher in materials science and is distinguished for his seminal work on fracture mechanics and advanced composite materials. He has published a number of papers on wound healing, biomaterials for implants and scaffolds. He is Fellow of the Royal Society, the Royal Academy of Engineering, the Australian Academy of Science, and the Australian Academy of Technological Sciences and Engineering.
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