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The present book relates to the scientific records of a workshop held in Patras, Greece, in June 1989, under the auspices and with financial support of the European Economic Communities (Concerted Action EUROBIOMAT - Hemocompatibility - of the Medical Research Programme, Project: 11.1.212). This concerted action promotes the collaboration on science and technology on the particular field of hemocompatible biomaterials: exchange of experts, scholarships and scientific workshops within the EC-member countries and COST countries such as Sweden, Finland, Turkey, Switzerland. The first part of this monography refers to the oral presentations of the par ticipants. The second part gives the book its unique character: the scientific discussion on updated aspects of protein adsorption of synthetic polymers in contact with blood. This second part is subdivided into nine chapters where specific topics were discussed freely, open-minded and even controversially. This book intends to elucidate recurrent questions concerning the initial event when blood contacts artificial surfaces. Young investigators will consider this book to be appropriate to get familiar with the scientific background and the most relevant techniques and methods.
Success or failure of biomaterials, whether tissue engineered constructs, joint and dental implants, vascular grafts, or heart valves, depends on molecular-level events that determine subsequent responses of cells and tissues. This book presents the latest developments and state-of-the-art knowledge regarding protein, cell, and tissue interactions with both conventional and nanophase materials. Insight into these biomaterial surface interactions will play a critical role in further developments in fields such as tissue engineering, regenerative medicine, and biocompatibility of implanted materials and devices. With chapters written by leaders in their respective fields, this compendium will be the authoritative source of information for scientists, engineers, and medical researchers seeking not only to understand but also to control tissue-biomaterial interactions.
Peptides and Proteins as Biomaterials for Tissue Regeneration and Repair highlights the various important considerations that go into biomaterial development, both in terms of fundamentals and applications. After covering a general introduction to protein and cell interactions with biomaterials, the book discusses proteins in biomaterials that mimic the extracellular matrix (ECM). The properties, fabrication and application of peptide biomaterials and protein-based biomaterials are discussed in addition to in vivo and in vitro studies. This book is a valuable resource for researchers, scientists and advanced students interested in biomaterials science, chemistry, molecular biology and nanotechnology. - Presents an all-inclusive and authoritative coverage of the important role which protein and peptides play as biomaterials for tissue regeneration - Explores protein and peptides from the fundamentals, to processing and applications - Written by an international group of leading biomaterials researchers
Biomaterials have existed for millennia as mechanical replacement structures following disease or injury. Biomaterial design has changed markedly from structural support with an "inert immune profile as the primary objective to designs that elicit an integrative local tissue response and a pro-repair immune cell phenotype. Immunomodulatory Biomaterials: Regulating the Immune Response with Biomaterials to Affect Clinical Outcome offers a single, comprehensive reference on biomaterials for modulation of the host response, for materials scientists, tissue engineers and those working in regenerative medicine. This book details methods, materials and strategies designed to regulate the host immune response following surgical implantation and thus facilitate specific local cell infiltration and tissue deposition. There has been a dramatic transformation in our understanding of the role of the immune system, both innate and adaptive; these changes include recognition of the plasticity of immune cells, especially macrophages, cross-talk between the immune system and stem cells, and the necessity for in situ transition between inflammatory and regulatory immune cell phenotypes. The exploitation of these findings and the design and manufacture of new biomaterials is occurring at an astounding pace. There is currently no book directed at the interdisciplinary principles guiding the design, manufacture, testing, and clinical translation of biomaterials that proactively regulate the host tissue immune response. The challenge for academia, industry, and regulatory agencies to encourage innovation while assuring safety and maximizing efficacy has never been greater. Given the highly interdisciplinary requirements for the design, manufacture and use of immunomodulatory biomaterials, this book will prove a useful single resource across disciplines. - Holistically covers the design, manufacture, testing, and clinical translation of biomaterials that proactively regulate the host tissue immune response - Provides a single reference for understanding and utilizing the host response in biomaterials design - An international collaboration of leading researchers in the field offering a novel insight into this fast-growing area
Offering nearly 7000 references-3900 more than the first edition-Polymeric Biomaterials, Second Edition is an up-to-the-minute source for plastics and biomedical engineers, polymer scientists, biochemists, molecular biologists, macromolecular chemists, pharmacists, cardiovascular and plastic surgeons, and graduate and medical students in these disciplines. Completely revised and updated, it includes coverage of genetic engineering, synthesis of biodegradable polymers, hydrogels, and mucoadhesive polymers, as well as polymers for dermacosmetic treatments, burn and wound dressings, orthopedic surgery, artificial joints, vascular prostheses, and in blood contacting systems.
The second edition of this bestselling title provides the most up-to-date comprehensive review of all aspects of biomaterials science by providing a balanced, insightful approach to learning biomaterials. This reference integrates a historical perspective of materials engineering principles with biological interactions of biomaterials. Also provided within are regulatory and ethical issues in addition to future directions of the field, and a state-of-the-art update of medical and biotechnological applications. All aspects of biomaterials science are thoroughly addressed, from tissue engineering to cochlear prostheses and drug delivery systems. Over 80 contributors from academia, government and industry detail the principles of cell biology, immunology, and pathology. Focus within pertains to the clinical uses of biomaterials as components in implants, devices, and artificial organs. This reference also touches upon their uses in biotechnology as well as the characterization of the physical, chemical, biochemical and surface properties of these materials. - Provides comprehensive coverage of principles and applications of all classes of biomaterials - Integrates concepts of biomaterials science and biological interactions with clinical science and societal issues including law, regulation, and ethics - Discusses successes and failures of biomaterials applications in clinical medicine and the future directions of the field - Cover the broad spectrum of biomaterial compositions including polymers, metals, ceramics, glasses, carbons, natural materials, and composites - Endorsed by the Society for Biomaterials
No. 29 offers new insights into the energies of activation of electrode reactions and the interfacial behavior of proteins.
This useful book is written from a medical perspective and is aimed at academics as well as medical and biomedical engineering students who want to become involved in the design, development, manufacturing or use of prostheses or medical devices. It covers basic information on the complexities of implant and medical device development. The design process, technology assessment, animal experiments, histocompatibility, tissue compatibility and infections are described. In addition, examples of biomaterial applications are presented, showing the diversity of biomaterials.This is the first book that guides the reader through the complicated process of medical product development. Different technical and medical aspects of medical implants are highlighted by a group of authors who are actively involved in biomaterial research at the University Medical Center of Groningen, one of the leading hospitals in The Netherlands.
First multi-year cumulation covers six years: 1965-70.
Proteins, Cells and Materials contains a collection of articles, which constitute together the complete Festschrift in honor of the 65th birthday of Dr. John L. Brash. For the first time these articles - published previously in several special issues of the Journal of Biomaterials Science Polymer Edition - have been compiled into one comprehensive volume.Over the past 40 years John Brash, a member of the Editorial Board of the Journal of Biomaterials Science Polymer Edition, has distinguished himself in the field of biomaterials. Much of his efforts have focused on detailed studies of blood–surface interactions, particularly those of plasma proteins. His multi-faceted approach recognises the importance of hemodynamics, transport and surface phenomena in the gross effects that result from blood–surface contact. In this book articles on the most recent development in these areas are collected and will thus provide a wealth of information of current research to specialists in the above-mentioned fields.