Advances in Calcium Phosphate Biomaterials, Softcover reprint of the original 1st ed. 2014 Springer Series in Biomaterials Science and Engineering Series, Vol. 2

Advances in Calcium Phosphate Biomaterials presents a comprehensive, state-of-the-art review of the latest advances in developing calcium phosphate biomaterials and their applications in medicine. It covers the fundamental structures, synthesis methods, characterization methods, and the physical and chemical properties of calcium phosphate biomaterials, as well as the synthesis and properties of calcium phosphate-based biomaterials in regenerative medicine and their clinical applications. The book brings together these new concepts, mechanisms and methods in contributions by both young and ?veteran? academics, clinicians, and researchers to forward the knowledge and expertise on calcium phosphate and related materials. Accordingly, the book not only covers the fundamentals but also open new avenues for meeting future challenges in research and clinical applications.

Besim Ben-Nissan is a Professor of Chemistry and Forensic Science at the University of Technology, Sydney, Australia

Introduction to Synthetic and Biologic Apatites.- Clinical applications of hydroxyapatite in orthopaedics.- Bioactive glass: Chronology, Characterization and Genetic Control of Tissue Regeneration.- The essential role of calcium phosphate bioceramics in bone regeneration.- Self-Assembly and Nano-Layering of Apatitic Calcium Phosphates in Biomaterials.- Signal Molecule-Calcium Phosphate Composites: Novel Approaches to Controlling Cellular and/or Biological Reactions and Functions.- Calcium phosphate cement.- Characterization of calcium phosphates using vibrational spectroscopies.- A review of hydroxyapatite coatings manufactured by thermal spray.- Bioactive composites reinforced with inorganic glasses and glass-ceramics for tissue engineering applications.- Development of Skeletal Drug Delivery System Based on Apatite/Collagen Composite Cement.- Nanocrystalline Apatite-Based Biomaterials and Stem Cells in Orthopaedics.- Marine Structures as Templates for Biomaterials.- Calcium phosphate derived from foraminifera structures as drug delivery systems and for bone tissue engineering.- History of Calcium Phosphates in Regenerative Medicine.- Advances in Calcium Phosphate Nano-coatings and Nano-composites.- Fundamental Structure and Properties of Enamel, Dentin and Cementum.

Prof. Ben-Nissan has an MSc degree in Ceramic Engineering and a PhD in Mechanical and Biomedical Engineering, both from the UNSW Australia.

Over the last three decades, Prof. Ben-Nissan has worked in and contributed to the biomedical materials and implant design areas, production and analysis of various calcium phosphate biomaterials, nanocoated sol-gel developed thin films, slow drug delivery, conversion of marine structures to biomedical materials, and finite element analysis of material structures.

He has made significant contributions in the field of advanced ceramics, and successfully developed materials for implant technology (bioactive materials including the conversion of Australian corals to hydroxyapatite), bone graft production and bio-composites, and conducted investigative research on biomechanics (mandible, knee and hip joints), reliability and implant design (modular zirconia ceramic knee prostheses, femoral head and taper stresses, and bionic eyes).

He has expertise in zirconia and hydroxyapatite ceramics, transformations and measurement of micro-mechanical stresses in ceramics and biomaterials. He is involved in consulting work related to various patent litigations in biomaterials and devices areas. His current research involves calcium phosphates, nanocoatings, bioactive bone grafts and the use of biomimetics approaches in slow drug delivery.

Prof. Ben-Nissan has published over 90 fully refereed papers in journals, as well as several book chapters. He is the editor of the Journal of the Australasian Ceramic Society and received The Australasian Ceramic Society Award for his "Sustained Contribution to the Ceramics Research & Development and Education in Australia". In 2006 his research on hydroxyapatite nanocoatings was recognized with the “Future Materials Award”.