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Prevalence of brain related diseases is expected to increase significantly in the next decades. Therefore, there is a vital need to develop effective, personalized models of human brain that can provide information about brain development, and the unique neurobiology of brain disorders. The use of biomaterials can play a strategic role for the future understanding and treatment of complex CNS diseases. Three-dimensional brain cultures have shown promise in disease modelling, cell transplantation and modulation of tissue repair.
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
The 10th International Winter Conference on Neurodegeneration (lWCN) has taken place from February 14-16,2002, at the lovely "SchloB Ziethen", an old prussian manor (in Prussia, 'faute de mieux', called 'SchloB', i. e. cas tle or residence). This place is 20 km off Tegel Airport, Berlin's main airport, and has been beautifully restored by baroness Edith von Thiingen (nee von BUlow, i. e. of historical Prussian aristocracy); it lends itself rather perfectly for the IWCN type of small interdisciplinary workshops on neurodegenera tion which combine short lectures with plenty of discussion. In this context, we could quote Alexander von Humboldt's famous opening words for one of the first international scientific meetings held at Berlin, on September 18, 1828: "The main purpose ... does not consist in a mutual reading of manuscripts all to be printed after at least one year in specialised publications, but in the personal communication amongst those who work in similar scientific fields; the oral and thus more stimulating exchange of ideas, might they represent facts, opinions or doubts; the foundation of friendly relations which convey illumination to our sciences, serene grace to our lives and tolerance and mildness to our habits ... Berlin, Sept. 18, 1828 Alexander von Humboldt To the IWCN aficionado, it may come as a little surprise that this is the pub lication of the 10th Winter Conference as this might mean that they must have missed number 9.
Despite enormous advances made in the development of external effector prosthetics over the last quarter century, significant questions remain, especially those concerning signal degradation that occurs with chronically implanted neuroelectrodes. Offering contributions from pioneering researchers in neuroprosthetics and tissue repair, Indwel
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.
Polymers from natural sources are particularly useful as biomaterials and in regenerative medicine, given their similarity to the extracellular matrix and other polymers in the human body. This important book reviews the wealth of research on both tried and promising new natural-based biomedical polymers, together with their applications as implantable biomaterials, controlled-release carriers or scaffolds for tissue engineering.The first part of the book reviews the sources, processing and properties of natural-based polymers for biomedical applications. Part two describes how the surfaces of polymer-based biomaterials can be modified to improve their functionality. The third part of the book discusses the use of natural-based polymers for biodegradable scaffolds and hydrogels in tissue engineering. Building on this foundation, Part four looks at the particular use of natural-gelling polymers for encapsulation, tissue engineering and regenerative medicine. The penultimate group of chapters reviews the use of natural-based polymers as delivery systems for drugs, hormones, enzymes and growth factors. The final part of the book summarises research on the key issue of biocompatibility.Natural-based polymers for biomedical applications is a standard reference for biomedical engineers, those studying and researching in this important area, and the medical community. - Examines the sources, processing and properties of natural based polymers for biomedical applications - Explains how the surfaces of polymer based biomaterials can be modified to improve their functionality - Discusses the use of natural based polymers for hydrogels in tissue engineering, and in particular natural gelling polymers for encapsulation and regenerative medicine
Written by world-leading experts, this book focusses on the role of biomaterials in stem cell research and regenerative medicine. Emphasising basic principles and methodology, it covers stem cell interactions, fabrication technologies, design principles, physical characterisation and biological evaluation, across a broad variety of systems and biomaterials. Topics include: stem cell biology, including embryonic stem cells, IPS, HSC and progenitor cells; modern scaffold structures, including biopolymer, bioceramic, micro- and nanofiber, ECM and biohydrogel; advanced fabrication technologies, including computer-aided tissue engineering and organ printing; cutting-edge drug delivery systems and gene therapy techniques; and medical applications spanning hard and soft tissues, the cardiovascular system and organ regeneration. With a contribution by Nobel laureate Shinya Yamanaka, this is a must-have reference for anyone in the field of biomaterials, stem cell biology and engineering, tissue engineering and regenerative medicine.
Novel injectable materials for non-invasive surgical procedures are becoming increasingly popular. An advantage of these materials include easy deliverability into the body, however the suitability of their mechanical properties must also be carefully considered. Injectable biomaterials covers the materials, properties and biomedical applications of injectable materials, as well as novel developments in the technology.Part one focuses on materials and properties, with chapters covering the design of injectable biomaterials as well as their rheological properties and the mechanical properties of injectable polymers and composites. Part two covers the clinical applications of injectable biomaterials, including chapters on drug delivery, tissue engineering and orthopaedic applications as well as injectable materials for gene delivery systems. In part three, existing and developing technologies are discussed. Chapters in this part cover such topics as environmentally responsive biomaterials, injectable nanotechnology, injectable biodegradable materials and biocompatibility. There are also chapters focusing on troubleshooting and potential future applications of injectable biomaterials.With its distinguished editor and international team of contributors, Injectable biomaterials is a standard reference for materials scientists and researchers working in the biomaterials industry, as well as those with an academic interest in the subject. It will also be beneficial to clinicians. - Comprehensively examines the materials, properties and biomedical applications of injectable materials, as well as novel developments in the technology - Reviews the design of injectable biomaterials as well as their rheological properties and the mechanical properties of injectable polymers and composites - Explores clinical applications of injectable biomaterials, including drug delivery, tissue engineering, orthopaedic applications and injectable materials for gene delivery systems
CNS Regeneration focuses on some of the leading current neurological disease models and methods for promoting central nervous system regeneration. Editors and authors are experts in the field, with experience in basic as well as applied neuroscience. In a comprehensive, logical manner, the book unites important basic science advances in neuroscience with novel medical strategies. The first comprehensive, authoritative volume on the topic of CNS regeneration Reviews current therapeutic approaches Editors and authors are experts in the field Appeals to those interested in basic science as well as those concerned with its medical application
In this exciting and timely book new approaches to repairing the parkinsonian brain are described by leading experts. Never in history has there been greater hope that novel experimental therapies can support significant restoration of brain function. This book gives an overview of the current state-of-the-art research for brain repair, what the challenges are and an indication of what research can provide for the next generation of people with Parkinson’s disease. The comprehensive chapters are geared to an audience of neuroscientists, neurologists, neurosurgeons and anyone interested in how findings in the research laboratory can effectively be transferred to the clinic.