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Focusing on bone biology, Bone Tissue Engineering integrates basic sciences with tissue engineering. It includes contributions from world-renowned researchers and clinicians who discuss key topics such as different models and approaches to bone tissue engineering, as well as exciting clinical applications for patients. Divided into four sections, t
Bioactive Materials for Bone Regeneration summarizes research advances on the topic, including sections on the characteristics of biomaterial-induced microenvironments, interactions of bioactive materials with stem cells and tissues, and the immunomodulatory microenvironment induced by biomaterials and its effects on osteogenesis. As the regeneration of large-size bone tissue defects represents a significant clinical challenge, this book demonstrates how new biomaterials with specific chemical and physical characteristics may interact with the host and create a unique micro-environment that actively facilitates stem cell differentiation along a specific lineage, thus stimulating tissue regeneration.
This book provides comprehensive coverage of smart biomaterials and their potential applications, a field that is developing at a very rapid pace. Because smart biomaterials are an emerging class of biomaterials that respond to small changes in external stimuli with large discontinuous changes in their physical properties, they have been designed to act as an “on–off” switch for, among others, bio separation, immunoanalysis, drug delivery technologies, gene therapy, diagnostics, bio sensors and artificial muscles. After an introduction to the topic and the history of smart biomaterials, the author gives the reader an in-depth look at the properties, mechanics, and characterization of smart biomaterials including hydrogels, particles, assemblies, surfaces, fibers and conjugates. Information on the wide range of applications for these materials follows, including drug delivery, tissue engineering, diagnostics, biosensors, bio separation and actuators. In addition, recent advances in shape memory biomaterials as active components of medical devices are also presented.
Biological activity, in the field of materials, mainly refers to the properties that can induce special biological and chemical reactions at the interface between materials and biological tissues, forming chemical bonds between materials and biological tissues. A bioactive material is a biomaterial that is able to participate in a regenerative process at the molecular level and dictate molecular and cellular events in a preferred and predictable way. In the process of biomineralization, the ability of biological material to chemically bond with living bone is an important index of the biomaterial, and the biological activity of the material in vivo is reflected by the simulated body fluid-SBF ability of apatite formed on the surface of the material. In the field of bone repair, bioactive materials such as hydrogels, agglomerates, and magnetic nanoparticles are playing an increasingly important role. Compared with traditional bone repair materials, bioactive materials have many advantages, such as high biocompatibility, simulation of the extracellular environment, and easy engineering modification. In addition, as a delivery system, bioactive materials are modified and engineered to be minimally invasive, targeted, and sustainably released. The above characteristics have important application value in the field of bone repair.
Advanced Techniques in Bone Regeneration is a book that brings together over 15 chapters, written by leading practitioners and researchers, of the latest advances in the area, including surgical techniques, new discoveries, and promising methods involving biomaterials and tissue engineering. This book is intended for all who work in the treatment of disorders involving problems with the regeneration of bone tissue, are doctors or dentists, as well as are researchers and teachers involved in this exciting field of scientific knowledge.
Octacalcium Phosphate Biomaterials: Past, Present and Future is a comprehensive study of octacalcium phosphate (OCP), a next generation biomaterial for bone regeneration. By focusing both on fundamental research and the use of OCP as a scaffold material, this book explores its potential to deliver improved clinical results. Early chapters in the book discuss OCP's effects on bone cell activity, cellular interactions and their role in bone formation, repair and replacement. Later chapters cover topics such as drug delivery, synthesis methodologies and future analysis techniques. This will be an invaluable and unique resource for researchers, clinicians, students and industrialists in the area of orthopedics and dentistry. OCP is known to be a pre-cursor to hydroxyapatite in the human biomineralization process that forms bone and tooth enamel. Research studies that have emerged in recent years suggest OCP's tremendous potential as a bioactive material. - Contains comprehensive, up-to-date information on the basic science, including physical, chemical and biological properties - Presents the clinical potential of octacalcium phosphate biomaterials - Provides a reference point for new research and increased activity in the area of next generation smarter biomaterials for hard tissue repair and regeneration
Tissue engineering involves seeding of cells on bio-mimicked scaffolds providing adhesive surfaces. Researchers though face a range of problems in generating tissue which can be circumvented by employing nanotechnology. It provides substrates for cell adhesion and proliferation and agents for cell growth and can be used to create nanostructures and nanoparticles to aid the engineering of different types of tissue. Written by renowned scientists from academia and industry, this book covers the recent developments, trends and innovations in the application of nanotechnologies in tissue engineering and regenerative medicine. It provides information on methodologies for designing and using biomaterials to regenerate tissue, on novel nano-textured surface features of materials (nano-structured polymers and metals e.g.) as well as on theranostics, immunology and nano-toxicology aspects. In the book also explained are fabrication techniques for production of scaffolds to a series of tissue-specific applications of scaffolds in tissue engineering for specific biomaterials and several types of tissue (such as skin bone, cartilage, vascular, cardiac, bladder and brain tissue). Furthermore, developments in nano drug delivery, gene therapy and cancer nanotechonology are described. The book helps readers to gain a working knowledge about the nanotechnology aspects of tissue engineering and will be of great use to those involved in building specific tissue substitutes in reaching their objective in a more efficient way. It is aimed for R&D and academic scientists, lab engineers, lecturers and PhD students engaged in the fields of tissue engineering or more generally regenerative medicine, nanomedicine, medical devices, nanofabrication, biofabrication, nano- and biomaterials and biomedical engineering. - Provides state-of-the-art knowledge on how nanotechnology can help tackling known problems in tissue engineering - Covers materials design, fabrication techniques for tissue-specific applications as well as immunology and toxicology aspects - Helps scientists and lab engineers building tissue substitutes in a more efficient way
Based on the proceedings of the Bone-Biomaterial Interface Workshop held in Toronto, Canada, December 1990, addresses the questions which have arisen during this period of evolution from inert to active materials in orthopedic, dental, and maxillofacial implants with specific reference to the bone-biomaterial interface. The seven parts of the volume reflect the seven sessions of the workshop, dealing with materials issues, protein adsorption, cell and tissue reactions, mechanical influences on interfacial biology, retrieval analysis, and the industrial context. Annotation copyrighted by Book News, Inc., Portland, OR
In Situ Tissue Regeneration: Host Cell Recruitment and Biomaterial Design explores the body's ability to mobilize endogenous stem cells to the site of injury and details the latest strategies developed for inducing and supporting the body's own regenerating capacity. From the perspective of regenerative medicine and tissue engineering, this book describes the mechanism of host cell recruitment, cell sourcing, cellular and molecular roles in cell differentiation, navigational cues and niche signals, and a tissue-specific smart biomaterial system that can be applied to a wide range of therapies. The work is divided into four sections to provide a thorough overview and helpful hints for future discoveries: endogenous cell sources; biochemical and physical cues; smart biomaterial development; and applications. - Explores the body's ability to mobilize endogenous stem cells to the site of injury - Details the latest strategies developed for inducing and supporting the body's own regenerating capacity - Presents smart biomaterials in cell-based tissue engineering applications—from the cell level to applications—in the first unified volume - Features chapter authors and editors who are authorities in this emerging field - Prioritizes a discussion of the future direction of smart biomaterials for in situ tissue regeneration, which will affect an emerging and lucrative industry