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Nanoengineering in Musculoskeletal Regeneration provides the reader an updated summary of the therapeutic pipeline-from biomedical discovery to clinical implementation-aimed at improving treatments for patients with conditions of the muscles, tendons, cartilage, meniscus, and bone. Regenerative medicine focuses on using stem cell biology to advance medical therapies for devastating disorders. This text presents novel, significant, and interdisciplinary theoretical and experimental results related to nanoscience and nanotechnology in musculoskeletal regeneration. Content includes basic, translational, and clinical research addressing musculoskeletal repair and regeneration for the treatment of diseases and injuries of the skeleton and its associated tissues.Musculoskeletal degeneration and complications from injuries have become more prevalent as people live longer and increasingly participate in rigorous athletic and recreational activities. Additionally, defects in skeletal tissues may immobilize people and cause inflammation and pain. Musculoskeletal regeneration research provides solutions to repair, restore, or replace skeletal elements and associated tissues that are affected by acute injury, chronic degeneration, genetic dysfunction, and cancer-related defects. The goal of musculoskeletal regeneration medicine research is to improve quality of life and outcomes for people with musculoskeletal injury or degradation.
Stem Cell Nanoengineering reviews the applications of nanotechnology in the fields of stem cells, tissue engineering, and regenerative medicine. Topics addressed include various types of stem cells, underlying principles of nanobiotechnology, the making of nano-scaffolds, nano tissue engineering, applications of nanotechnology in stem cell tracking and molecular imaging, nano-devices, as well as stem cell nano-engineering from bench to bedside. Written by renowned experts in their respective fields, chapters describe and explore a wide variety of topics in stem cell nanoengineering, making the book a valuable resource for both researchers and clinicians in biomedical and bioengineering fields.
Ninth volume of a 40 volume series on nanoscience and nanotechnology, edited by the renowned scientist Challa S.S.R. Kumar. This handbook gives a comprehensive overview about Nanotechnology Characterization Tools for Tissue Engineering and Medical Therapy. Modern applications and state-of-the-art techniques are covered and make this volume an essential reading for research scientists in academia and industry.
Neural Regenerative Nanomedicine presents novel, significant, experimental results relating to nanoscience and nanotechnology in neural regeneration. As current research is at the forefront of healing the nervous system, the content in the book focuses on basic, translational and clinical research in neural repair and regeneration. Chapters focus on stem cell biology to advance medical therapies for devastating disorders, the complex, delicate structures that make up the nervous system, and neurodegenerative diseases that cause progressive deterioration, including Alzheimer's disease, Parkinson's disease, amyotrophic lateral sclerosis (ALS), multiple sclerosis and multiple system atrophy. - Presents a multidisciplinary focus on all research areas surrounding the applications of nanotechnology in neural regeneration - Provides a guide for physician and scientists, including necessary expertise for bioengineers, materials engineers, those in biomaterials and nanoengineering, stem cell biologists, and chemists - Covers many disciplines, including bioengineering, biomaterials, tissue engineering, regenerative medicine, neural regenerative medicine, and nanomedicine
Supported with 140 illustrations, the volume exhaustively covers the micro- and nano-system technologies involved in developing cell-based bioengineering applications. You get full details on efforts to engineer the soluble and insoluble cell microenvironments, including the latest advances in microfluidic devices, surface patterning, 3D scaffolds, and techniques for engineering cellular mechanical properties and topography.
Nanotechnologies in Preventative and Regenerative Medicine demonstrates how control at the nanoscale can help achieve earlier diagnoses and create more effective treatments. Chapters take a logical approach, arranging materials by their area of application. Biomaterials are, by convention, divided according to the area of their application, with each chapter outlining current challenges before discussing how nanotechnology and nanomaterials can help solve these challenges This applications-orientated book is a valuable resource for researchers in biomedical science who want to gain a greater understanding on how nanotechnology can help create more effective vaccines and treatments, and to nanomaterials researchers seeking to gain a greater understanding of how these materials are applied in medicine. - Demonstrates how nanotechnology can help achieve more successful diagnoses at an earlier stage - Explains how nanomaterials can be manipulated to create more effective drug treatments - Offers suggestions on how the use of nanotechnology might have future applications to create even more effective treatments
Nanotechnology plays a key leading role in developing tools able to identify, measure, and study cellular events at the nanometric level as well as in contributing to the disclosure of unknown biological interactions and mechanisms, which opens the door for advances including nanodevices for diagnostic and therapy, drug delivery systems, and regenerative medicine. In Nanotechnology in Regenerative Medicine: Methods and Protocols, expert researchers in the field provide an overview of a very wide range of currently used technologies and methods that involve nanotechnology principles applicable to tissue regeneration. Being that the application of nanotechnology to regenerative medicine is a very broad field, this book focuses its interests on particular areas such as its use as a means to produce efficient platforms and structures for tissue engineering, delivery systems and biosensors, as well as the use of some techniques to study materials surfaces and the interactions between cells, biomolecules, and surfaces at the nanoscale. Written in the highly successful Methods in Molecular BiologyTM series format, chapters include introductions to their related topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and accessible, Nanotechnology in Regenerative Medicine: Methods and Protocols provides established scientists, junior researchers, and students involved in the bioengineering, biotechnology, and biomedical fields with a sound foundation in a variety of vital nanotechnology approaches in regenerative medicine.
This book reviews the interface of stem cell biology and biomaterials for regenerative medicine. It presents the applications of biomaterials to support stem cell growth and regeneration. The book discusses the stem cell interactions’ with nanofiber, gradient biomaterial, polymer- and ceramic biomaterials, integrating top-down and bottom-up approaches, adhesive properties of stem cells on materials, cell-laden hydrogels, micro-and nanospheres, de-cellularization techniques, and use of porous scaffolds. Further, this book provides a basic introduction to the fabrication techniques for creating various biomaterials that can be used for stem cell differentiation. It also elucidates the properties of stem cells, their characteristic features, tissue culture technology, properties of pluripotency, osteogenesis, and biomaterial interaction with de-cellularized organs, cell lineage in vivo and in vitro, gene expression, embryonic development, and cell differentiation. Further, the book reviews the latest applications of bio-instructive scaffold for supporting stem cell differentiation and tissue regeneration. The book also presents stem cell for dental, alveolar bone and cardiac regeneration. Lastly, it introduces engineered stem cells for delivering small molecule therapeutics and their potential biomedical applications.
Advances in Stem Cell Research discusses recent advances in stem cell science, including therapeutic applications. This volume covers such topics as biomanufacturing iPS cells for therapeutic applications, techniques for controlling stem cell fate decisions, as well as current basic research in such areas as germ line stem cells, genomics and proteomics in stem cell research. It is a useful book for biology and clinical scientists, especially young investigators and stem cell biology students who are newly entering the world of stem cells research. The editors hope that the new knowledge and research outlined in this book will help contribute to new therapies for a wide variety of diseases that presently afflict humanity.
The study of stem cell research has recently gained the attention from a growing, multidisciplinary community of scientist; this exponential growth of interest is driven by the hope of discovering cures for several diseases through transplantation medicine. Trends in Stem Cells Biology and Technology aptly serves this developing community as it reveals new aspects of stem cell research by specifically covering studies focused on spermatogonial stem cells, uniparental embryonic stem cell lines, the generation of gametes from stem cells, reprogramming germ cells to stem cells, nuclear and somatic cell genetic reprogramming, tissue engineering and mechanotransduction of stem cells and finally the development of stem cell technologies for the treatment of deafness, heart disease, corneal injury and diabetes. With contributions by leading scientists and renowned scholars, Trends in Stem Cells Biology and Technology offers a wide audience cutting edge information at a crucial time in this ever expanding field.