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This book is a comprehensive and up-to-date resource on the use of regenerative medicine for the treatment of cardiovascular disease. It provides a much-needed review of the rapid development and evolution of bio-fabrication techniques to engineer cardiovascular tissues as well as their use in clinical settings. The book incorporates recent advances in the biology, biomaterial design, and manufacturing of bioengineered cardiovascular tissue with their clinical applications to bridge the basic sciences to current and future cardiovascular treatment. The book begins with an examination of state-of-the-art cellular, biomaterial, and macromolecular technologies for the repair and regeneration of diseased heart tissue. It discusses advances in nanotechnology and bioengineering of cardiac microtissues using acoustic assembly. Subsequent chapters explore the clinical applications and translational potential of current technologies such as cardiac patch-based treatments, cell-based regenerative therapies, and injectable hydrogels. The book examines how these methodologies are used to treat a variety of cardiovascular diseases including myocardial infarction, congenital heart disease, and ischemic heart injuries. Finally, the volume concludes with a summary of the most prominent challenges and perspectives on the field of cardiovascular tissue engineering and clinical cardiovascular regenerative medicine. Cardiovascular Regenerative Medicine is an essential resource for physicians, residents, fellows, and medical students in cardiology and cardiovascular regeneration as well as clinical and basic researchers in bioengineering, nanomaterial and technology, and cardiovascular biology.
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.
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The book Nanopharmaceuticals in regenerative medicine is a collective and comprehensive volume of the latest innovations in nanoscience technology for practical use in clinical, biomedicine and diagnostic arena. The term nanotechnology pops up in every segment of modern-day life. The primary aim of this book is to deliver the precise information to students, educators, technologists and researchers. A conglomerate of scientists from various research fields contributed to the chapters, giving detailed descriptions on the most recent developments of nanotechnology in the area of disease management. This book will also be useful for industrial research and development partners, start-up entrepreneurs, government policy makers and other professionals who are interested in nanomedicines. Chapter 8 of this book is freely available as a downloadable Open Access PDF at Nanopharmaceuticals in Regenerative Medicine | Harishkumar Madhyastha, (taylorfrancis.com) under a Creative Commons CC-BY 4.0 license.
Virtually any disease that results from malfunctioning, damaged, or failing tissues may be potentially cured through regenerative medicine therapies, by either regenerating the damaged tissues in vivo, or by growing the tissues and organs in vitro and implanting them into the patient. Principles of Regenerative Medicine discusses the latest advances in technology and medicine for replacing tissues and organs damaged by disease and of developing therapies for previously untreatable conditions, such as diabetes, heart disease, liver disease, and renal failure. - Key for all researchers and instituions in Stem Cell Biology, Bioengineering, and Developmental Biology - The first of its kind to offer an advanced understanding of the latest technologies in regenerative medicine - New discoveries from leading researchers on restoration of diseased tissues and organs
Nanotechnology is an emerging and exciting area in the field of implants. Numerous promising developments have been elucidated regarding the use of nanotechnology to regenerate tissues. This important book highlights the potential of nanophase materials to improve hard and soft tissue applications. In all cases, increased tissue regeneration has been observed for bone, cartilage, vascular, bladder, and central/peripheral nervous system tissues.
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.
Nanotechnology and high-end characterization techniques have highlighted the importance of the material choice for the success of tissue engineering. A paradigm shift has been seen from conventional passive materials as scaffolds to smart multi-functional materials that can mimic the complex intracellular milieu more effectively. This book presents a detailed overview of the rationale involved in the choice of materials for regeneration of different tissues and the future directions in this fascinating area of materials science with specific chapters on regulatory challenges & ethics; tissue engineered medical products.
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
The first resource of its kind, this book covers cutting-edge research on the use of nanoparticles for in vivo diagnostic medical imaging and therapy. It discusses a variety of nanoparticles, including quantum dots, carbon nanotubes, dendrimers, gold nanoshells, metal nanorods, micelles, liposomes, polymers, MRI iron oxide particles, and microbubbles. Examples in the book include multifunctional nanoparticles that designed for multimodality imaging and simultaneous diagnostic and therapy (theranostic) applications.