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Special topic volume with invited peer reviewed papers only.
Nanoscience is revolutionizing the design of medical devices, tissue scaffolding and drug-delivery systems.26 New discoveries regarding nano-system, made in other research areas, have opened up the possibility of using them in biomedicine. However, such nanoscience and its possibilities, which sometimes border on science fiction, have to be kept in perspective so as not to lose sight of the limitations with respect to safety that applications within the human body impose. Nevertheless, nanomedicine focuses nowadays upon the treatment of cancer, upon tissue regeneration, and upon diagnosis and imaging. The main goal of this book is to bring together some of the advanced new trends in biomedicine that involve potential nano candidates for future treatments in the control of biological systems and in regenerative medicine. It will become an essential guide to the subject.
Advanced Bioceramics: Properties, Processing, and Applications describes development of bioceramics and biocomposites, which are used in various biomedical applications including bone tissue repair, remodelling and regeneration. It covers the fundamental aspects of materials science and bioengineering, clinical performance in a variety of applications, ISO/ASTM specifications, and opportunities and challenges. Offers a comprehensive view of properties and processing of bioceramics Highlights applications in dentistry, orthopaedic and maxillofacial implants, and regenerative and tissue engineering Covers ISO/ASTM specifications such as processing, clinical applications, recycling/reuse and disposal standards Explores health, environmental and ethical issues With contributions from eminent editors and recognized authors around the world, this book should serve as an important reference for academics, scientists, researchers, students and practitioners in materials science and biomedical engineering. It is to assist in the design of novel, targeted and personalised bioceramic-based solutions to advanced healthcare.
Due to a great chemical similarity with the biological calcified tissues, many calcium orthophosphates possess remarkable biocompatibility and bioactivity. Materials scientists use this property extensively to construct artificial bone grafts that are either entirely made of or only surface-coated with the biologically relevant calcium orthophospha
This publication offers a unique approach that links the materials science of bioceramics to clinical needs and applications. Providing a structured account of this highly active area of research, the book reviews the clinical applications in bone tissue engineering, bone regeneration, joint replacement, drug-delivery systems and biomimetism, this book is an ideal resource for materials scientists and engineers, as well as for clinicians. From the contents: Part I Introduction 1. Bioceramics 2. Biomimetics Part II Materials 3. Calcium Phosphate Bioceramics 4. Silica-based Ceramics: Glasses 5. Silica-based Ceramics: Mesoporous Silica 6. Alumina, Zirconia, and Other Non-oxide Inert Bioceramics 7. Carbon-based Materials in Biomedicine Part III Material Shaping 8. Cements 9. Bioceramic Coatings for Medical Implants 10. Scaffold Designing Part IV Research on Future Ceramics 11. Bone Biology and Regeneration 12. Ceramics for Drug Delivery 13. Ceramics for Gene Transfection 14. Ceramic Nanoparticles for Cancer Treatment
Nanobiomaterials in Hard Tissue Engineering covers the latest developments in the field of hard tissue engineering at the nanoscale. Leading researchers from around the world discuss the latest research and offer new insights. This book presents data about the fabrication and characterization of nanobiomaterials involved in hard tissue reconstruction, describing recent progress and the advantages of both conventional and computer-aided methods. Recent applications of different classes of nanobiomaterials are discussed, with in vitro and in vivo applications also explained in detail. Special attention is paid to the applications of nanobiomaterials in bone regeneration and in the development of functional coatings for tailored implants to improve osseointegration. Finally, the book considers future challenges and perspectives. This book will be of interest to postdoctoral researchers, professors and students engaged in the fields of materials science, biotechnology and applied chemistry. It will also be highly valuable to those working in industry, including pharmaceutics and biotechnology companies, medical researchers, biomedical engineers and advanced clinicians. - An up-to-date and highly structured guide for researchers, practitioners and students working in biomedical, biotechnological and engineering fields - A detailed and invaluable overview of hard tissue engineering, an increasingly important field - Proposes novel opportunities and ideas for developing or improving technologies in nanomedicine and nanobiology
Bioceramics have been used very successfully within the human body for many years. They are commonly used in orthopaedic surgery and dentistry but they are potentially suitable for a wide range of important applications within the medical device industry. This important book reviews the range of bioceramics, their properties and range of clinical uses.Chapters in the first section of the book discusses issues of significance to a range of bioceramics such as their structure, mechanical properties and biological interactions. The second part reviews the fabrication, microstructure and properties of specific bioceramics and glasses, concentrating on the most promising materials. These include alumina and zirconia ceramics, bioactive glasses and bioactive glass-ceramics, calcium sulphate, tricalcium phosphate-based ceramics, hydroxyapatite, tricalcium phosphate/hydroxyapatite biphasic ceramics, si-substrated hydroxyapatite, calcium phosphate cement, calcium phosphate coating, titania-based materials, ceramic-polymer composites, dental ceramics and dental glass-ceramics. The final group of chapters reviews the clinical applications of bioceramics in joint replacement, bone grafts, tissue engineering and dentistry.Bioceramics and their clinical applications is written by leading academics from around the world and it provides an authoritative review of this highly active area of research. This book is a useful resource for biomaterials scientists and engineers, as well as for clinicians and the academic community. - Provides an authoritative review of this highly active area of research - Discusses issues of significance of a range of bioceramics such as their structure, mechanical properties and biological interactions - Reviews the clinical applications of bioceramics in joint replacement, bone grafts, tissue engineering and dentistry
This book explores in depth a wide range of new biomaterials that hold great promise for applications in regenerative medicine. The opening two sections are devoted to biomaterials designed to direct stem cell fate and regulate signaling pathways. Diverse novel functional biomaterials, including injectable nanocomposite hydrogels, electrosprayed nanoparticles, and waterborne polyurethane-based materials, are then discussed. The fourth section focuses on inorganic biomaterials, such as nanobioceramics, hydroxyapatite, and titanium dioxide. Finally, up-to-date information is provided on a wide range of smart natural biomaterials, ranging from silk fibroin-based scaffolds and collagen type I to chitosan, mussel-inspired biomaterials, and natural polymeric scaffolds. This is one of two books to be based on contributions from leading experts that were delivered at the 2018 Asia University Symposium on Biomedical Engineering in Seoul, Korea – the companion book examines in depth the latest enabling technologies for regenerative medicine.
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
Frontiers in Tissue Engineering is a carefully edited compilation of state-of-the-art contributions from an international authorship of experts in the diverse subjects that make up tissue engineering. A broad representation of the medical, scientific, industrial and regulatory community is detailed in the book. The work is an authoritative and comprehensive reference source for scientists and clinicians working in this emerging field. The book is divided into three parts: fundamentals and methods of tissue engineering, tissue engineering applied to specialised tissues, and tissue engineering applied to organs. The text offers many novel approaches, including a detailed coverage of cell-tissue interactions at cellular and molecular levels; cell-tissue surface, biochemical, and mechanical environments; biomaterials; engineering design; tissue-organ function; new approaches to tissue-organ regeneration and replacement of function; ethical considerations of tissue engineering; and government regulation of tissue-engineered products.