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Showing 1 - 6 of 6 matches in All Departments
Work in the area of biomaterials and stem cell therapy has revealed great potential for many applications, from the treatment of localized defects and diseases to the repair and replacement of whole organs. Researchers have also begun to develop a better understanding of the cellular environment needed for optimal tissue repair and regeneration. Biomaterials and Stem Cells in Regenerative Medicine explores a range of applications for biomaterials and stem cell therapy and describes recent research on suitable cell scaffolds and substrates for tissue repair and reconstruction. Featuring contributions by experts in the field, the book explores important scientific and clinical aspects. It covers the basic science involved in structure and properties, techniques and technological innovations in processing and characterization, and applications of biomaterials and stem cells. Topics include:
From fundamental principles to recent advances at the macro, micro, nano, and molecular scales, the book brings together current knowledge on biomaterials and stem cells in the context of regenerative medicine. It also stimulates discussion about future research directions. This unique book offers a valuable benchmark for the current status of clinically relevant research and development in stem cells and regenerative medicine. It bridges the gaps in experimental approaches and understanding among the materials science and engineering, biological sciences, and biomedical science and engineering communities, making it a valuable reference for graduate students, researchers, and practitioners working in the multidisciplinary field of biomedical research.
Work in the area of biomaterials and stem cell therapy has revealed great potential for many applications, from the treatment of localized defects and diseases to the repair and replacement of whole organs. Researchers have also begun to develop a better understanding of the cellular environment needed for optimal tissue repair and regeneration. Biomaterials and Stem Cells in Regenerative Medicine explores a range of applications for biomaterials and stem cell therapy and describes recent research on suitable cell scaffolds and substrates for tissue repair and reconstruction. Featuring contributions by experts in the field, the book explores important scientific and clinical aspects. It covers the basic science involved in structure and properties, techniques and technological innovations in processing and characterization, and applications of biomaterials and stem cells. Topics include: Polymeric systems for stem cell delivery The potential of membranes and porous scaffolds in tissue repair, including myocardial, periodontal, ophthalmic, and bone tissues The optimization of the interaction between stem cells and biomaterial substrates The source and nature of stem cells for tissue engineering applications The clinical translation of stem cell-based tissue engineering for regenerative medicine From fundamental principles to recent advances at the macro, micro, nano, and molecular scales, the book brings together current knowledge on biomaterials and stem cells in the context of regenerative medicine. It also stimulates discussion about future research directions. This unique book offers a valuable benchmark for the current status of clinically relevant research and development in stem cells and regenerative medicine. It bridges the gaps in experimental approaches and understanding among the materials science and engineering, biological sciences, and biomedical science and engineering communities, making it a valuable reference for graduate students, researchers, and practitioners working in the multidisciplinary field of biomedical research.
Through the integration of strategies from life science, engineering, and clinical medicine, tissue engineering and regenerative medicine hold the promise of new solutions to current health challenges. This rapidly developing field requires continual updates to the state-of-the-art knowledge in all of the aforementioned sciences. Tissue Engineering and Regenerative Medicine: A Nano Approach provides a compilation of the important aspects of tissue engineering and regenerative medicine, including dentistry, from fundamental principles to current advances and future trends. Written by internationally renowned scientists, engineers, and clinicians, the chapters cover the following areas: Nanobiomaterials and scaffolds-including nanocomposites and electrospun nanofibers Tissue mechanics Stem cells and nanobiomaterials Oral and cranial implants and regeneration of bone Cartilage tissue engineering Controlled release-DNA, RNA, and protein delivery Animal science and clinical medicine The editors designed this textbook with a distinctive theme focusing on the utilization of nanotechnology, biomaterials science in tissue engineering, and regenerative medicine with the inclusion of important clinical aspects. In addition to injured veterans and other individuals, increased life expectancy in the industrialized world is creating a growing population that will require regenerative medicine, producing greater pressure to develop procedures and treatments to improve quality of life. This book bridges the gap between nanotechnology and tissue engineering and regenerative medicine, facilitating the merger of these two fields and the important transition from laboratory discoveries to clinical applications.
Nanofiber Composite Materials for Biomedical Applications presents new developments and recent advances in nanofiber-reinforced composite materials and their use in biomedical applications, including biomaterial developments, drug delivery, tissue engineering, and regenerative medicine. Unlike more conventional titles on composite materials, this book covers the most innovative new developments in nanofiber-based composites, including polymers, ceramics, and metals, with particular emphasis on their preparation and characterization methodology. Selected case studies illustrate new developments in clinical and preclinical use, making the information critical for the development of new medical materials and systems for use in human health care, and for the exploration of new design spaces based on these nanofibers. This book is essential reading for those working in biomedical science and engineering, materials science, nanoscience, biomedical nanotechnology, and biotechnology.
There are several well-known books on the market that cover biomaterials in a general way, but none provide adequate focus on the future of and potential for actual uses of emerging nanontechnology in this burgeoning field. Biomaterials: A Nano Approach is written from a multi-disciplinary point of view that integrates aspects of materials science and engineering, nanotechnology, bioengineering, and biosciences. The book fills a glaring void in the literature by providing a comprehensive discussion of biomaterials and a scientifically plausible extrapolation of likely scenarios in which nanotechnology could play a significant role. The authors introduce and examine basic concepts, processing methodologies, and techniques involved in the preparation and characterization of nanobiomaterials that are specific to biomedical applications. A Self-Contained Book Illustrating Past, Present, and Future Trends in BiomaterialsSpanning from the historical development of biomaterials to cutting-edge advances in the field, the text describes how basic concepts in nanotechnology are applied to the processing of novel nanobiomaterials, including nanostructured metals and alloys. With its illustrative examples and presentation of applications, this text offers a solid framework for understanding present and future trends of biomaterials in human healthcare systems. It is an ideal companion resource for students, researchers, and industrial scientists who specialize in biomaterials and nanobiomaterials.
"Stem Cell Biology and Tissue Engineering in Dental Sciences"
bridges the gap left by many tissue engineering and stem cell
biology titles to highlight the importance of research in this
field in the dental sciences.It compiles basic embryology and
developmental biology with keen focus on stem cells, basic cell and
matrix biology with relevance to tissue regeneration and repair,
biomaterials (including nanotechnology) and current applications in
various disciplines of dental science.Tissue engineering is an
interdisciplinary field of biomedical research which combines life,
engineering, and materials sciences to further the maintenance,
repair, and replacement of diseased and damaged tissues. This
emerging area of research applies an understanding of normal tissue
physiology to develop novel biomaterial, acellular, and cell-based
therapies for clinical application. These strategies are being
developed and evaluated as potential treatments of dental
conditions, particularly periodontology, endodontics, dental
implantology, and oral-maxillofacial surgery.
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