Nanomedicine is defined as the application of nanobiotechnology in clinical medicine, which is currently being used to research the pathomechanism of disease, refine molecular diagnostics, and aid in the discovery, development, and delivery of drugs. In The Handbook of Nanomedicine, Third Edition, Prof. Kewal K. Jain updates, reorganizes, and replaces information in the comprehensive second edition in order to capture the most recent advances in this dynamic field. Important components of nanomedicine such as drug delivery via nanobiotechnology and nanopharmaceuticals as well as nanooncology, where the greatest number of advances are occurring, are covered extensively. As this text is aimed at nonmedical scientists, pharmaceutical personnel, as well as physicians, descriptions of the technology involved and other medical terminology are kept as clear and simple as possible. In depth and cutting-edge, The Handbook of Nanomedicine, Third Edition informs its readers of the ever-growing field of nanomedicine, destined to play a significant role in the future of healthcare.
The fast developing field of nanomedicine uses a broad variety of materials to serve as delivery systems for drugs, genes, and diagnostic agents. This book is the first attempt to put under one cover all major available information about these materials, both still on experimental levels and already applied in patients.
This handbook covers the broad scope of nanomedicine. Starting with the basics, the subject is developed to potential clinical applications, many of which are still at an experimental stage. The book features extensive coverage of nanodiagnostics and nanopharmaceuticals, which are two important components of nanomedicine. Written by a physician-scientist author who blends his clinical experience and scientific expertise in new technologies, this book provides a definitive account of nanomedicine. It offers more up-to-date and comprehensive coverage of nanomedicine than any other comparable work.
Handbook of Nanotechnology Applications: Environment, Energy, Agriculture and Medicine presents a comprehensive overview on recent developments and prospects surrounding nanotechnology use in water/wastewater separation and purification, energy storage and conversion, agricultural and food process, and effective diagnoses and treatments in medical fields. The book includes detailed overviews of nanotechnology, including nanofiltration membrane for water/wastewater treatment, nanomedicine and nanosensor development for medical implementation, advanced nanomaterials of different structural dimensions (0D, 1D, 2D and 3D) for energy applications, as well as food and agricultural utilization. Other sections discuss the challenges of lab-based research transitioning towards practical industrial use. - Helps scientists and researchers quickly learn and understand the key role of nanotechnology in important industrial applications - Takes an interdisciplinary approach, demonstrating how nanotechnology is being used in a wide range of industry sectors - Outlines the role nanotechnology plays in creating safer, cheaper and more energy-efficient projects and devices
Designed to foster a stronger awareness and exploration of the subject by practicing clinicians, medical researchers and scientists, The Clinical Nanomedicine Handbook discusses the integration of nanotechnology, biology, and medicine from a clinical point of view. The book highlights relevant research and applications by specialty; it examines nanotechnology in depth, and the potential to solve medical problems. It also increases literacy in nanotechnology, and allows for more effective communication and collaboration between disciplines. Details worldwide developments in nanomedicine Provides a comprehensive roadmap of the state of nanomedicine in numerous medical specialties Bridges the gap between basic science research, engineering, nanotechnology, and medicine This text discusses what nanomedicine is, how it is currently used, and considers its potential for future applications. It serves as a reference for clinicians, including physicians, nurses, health-care providers, dentists, scientists, and researchers involved in clinical applications of nanotechnology.
This book compiles multidisciplinary efforts to conceptualize the environment in research and clinical setting that creates the fertile ground for the practical utility of personalized medicine decisions and also enables clinical pharmacogenomics for establishing pharmacotyping in drug prescription. Its covers innovative drug formulations and nanotheranostics, molecular imaging and signatures, translational nanomedicine and informatics, stem cell therapy approaches, modeling and predictability of drug response, pharmacogenetics-guided drug prescription, pediatric drug dosing, pharmacovigilance and regulatory aspects, ethical and cost-effectiveness issues, pharmacogenomics knowledge bases, personal genome sequencing, molecular diagnostics, as well as information-based medicine.
This handbook (55 chapters) provides a comprehensive roadmap of basic research in nanomedicine as well as clinical applications. However, unlike other texts in nanomedicine, it not only highlights current advances in diagnostics and therapeutics but also explores related issues like nomenclature, historical developments, regulatory aspects, nanosim
The exciting advances in nanomedicine in the past two decades highlight the growing need for an authoritative and comprehensive reference that can be relied upon by scientists, clinicians, academics, industry, students, lawyers, and policy-makers alike. With this in mind, the Handbook of Clinical Nanomedicine: Law, Business, Regulation, Safety, and Risk and its related companion volumes in the series aim to provide a broad survey of interconnected topics pertaining to clinical nanomedicine. This is the second volume in the series. Each volume is intended to be a stand‐alone reference source, presented in a user-friendly format for easy access. This volume examines nanomedical products’ entire "product life cycle" from the creation of nanomedical products to the final market introduction. It not only provides a comprehensive roadmap of basic and clinical research but also tackles critical topics such as regulatory science, intellectual property law, risk analysis, toxicology, nano-characterization, and commercialization activities. All chapters contain keywords, figures in full color, author biographies, and an extensive list of references. The handbook is truly essential reading for the novice and the expert alike in fields such as medicine, law, biotechnology, pharmaceutical sciences, engineering, policy, future studies, ethics, licensing, and toxicology, among others. While bridging the gap between basic biomedical research, engineering, medicine, law, and commercialization, the handbook allows readers to gain a thorough understanding of nano’s potential to address medical problems from both the patient and the health provider’s point of view; current applications and potential in a healthcare setting; regulatory, environment, and health issues; and intellectual property, licensing, and commercialization issues as well as business considerations. The editor and assistant editors have skillfully curated each chapter to reflect the most relevant and current information possible. The range of topics covered as well as the diverse selection of distinguished authors is truly impressive. The multidisciplinary approach of this handbook as well as its focus on not only scientific and technical aspects of nanomedicine but also legal, regulatory, policy, and commercial aspects will attract a global audience. In short, the Handbook of Clinical Nanomedicine: Law, Business, Regulation, Safety, and Risk promises to be a standard reference for any serious practitioner in this expansive field.
This book comprehensively covers a broad range of therapeutic and diagnostic applications of nanotechnology, providing descriptions of cutting-edge discoveries along with historical perspectives. The text focuses on nanomaterials and nanoparticles, the sectors that hold the most promise for the future of medicine. The author look at how nanotechnology can impact cancer treatment, clinical neuroscience, tissue engineering, drug delivery, and diagnostics. He also discusses the worldwide governmental regulatory impact on nanomedicine.
In the fast-developing field of nanomedicine, a broad variety of materials have been used for the development of advanced delivery systems for drugs, genes, and diagnostic agents. With the recent breakthroughs in the field, we are witnessing a new age of disease management, which is governed by precise regulation of dosage and delivery. This book presents the advances in the use of polymeric nanomaterials for medical imaging, diagnosis, theranostics, and drug delivery. Beginning with the combinatorial approach for polymer design, it discusses star-shaped amphiphilic polymers, self-assembling polymer–drug conjugates, amphiphilic dendrimers, dendrimer nanohybrids, sustainable green polymeric nanoconstructs, chitosan-based nanogels, and multifunctional hybrid nanogels. The book provides all available information about these materials and describes in detail their advantages and disadvantages and the areas where they could be utilized successfully.
