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Mechanobiology: From Molecular Sensing to Disease will provide a review of the current state of understanding of mechanobiology and its role in health and disease. It covers: Current understanding of the main molecular pathways by which cells sense and respond to mechanical stimuli, A review of diseases that with known or purported mechanobiological underpinnings; The role of mechanobiology in tissue engineering and regenerative medicine; Experimental methods to capture mechanobiological phenomena; Computational models in mechanobiology. - Presents our current understanding of the main molecular pathways by which cells sense and respond to mechanical stimuli - Provides a review of diseases with known or purported mechanobiological underpinnings - Includes the role of mechanobiology in tissue engineering and regenerative medicine - Covers experimental methods to capture mechanobiological phenomena
The book defines the differences between synthetic and natural superabsorbent polymers. It describes polymerization techniques, processing strategies and the use and importance of smart SAPs. It also includes SAP design to aid in selection of the best SAP for a specific application. The book is an indispensible resource for any academics and industrials interested in SAPs.
Mesenchymal stem cells (MSCs), a type of adult stem cells, have attracted the attention of scientists and physicians alike due to their unique biological properties and potential for disease treatment. As stem cell research is complex and progressing rapidly, it is important that the experts in this field share their views and perspectives. This book, co-edited by leading global researchers, is divided into three major sections and covers a broad range of topics concerning MSCs during their transition from benchside to bedside. The book is intended for researchers and clinicians in the field of stem cells. Dr. Robert Chunhua Zhao, MD. Ph.D is Cheung Kong Professor of Stem Cell Biology, Professor of Cell Biology at the Institute of Basic Medical Sciences & School of Basic Medicine, Chinese Academy of Medical Sciences & Peking Union Medical College, China Director of Center for Tissue Engineering, PUMC Chief scientist of 973 program Regional Editor of Stem Cells and Development.
Stem Cell Manufacturing discusses the required technologies that enable the transfer of the current laboratory-based practice of stem cell tissue culture to the clinic environment as therapeutics, while concurrently achieving control, reproducibility, automation, validation, and safety of the process and the product. The advent of stem cell research unveiled the therapeutic potential of stem cells and their derivatives and increased the awareness of the public and scientific community for the topic. The successful manufacturing of stem cells and their derivatives is expected to have a positive impact in the society since it will contribute to widen the offer of therapeutic solutions to the patients. Fully defined cellular products can be used to restore the structure and function of damaged tissues and organs and to develop stem cell-based cellular therapies for the treatment of cancer and hematological disorders, autoimmune and other inflammatory diseases and genetic disorders. - Presents the first 'Flowchart' of stem cell manufacturing enabling easy understanding of the various processes in a sequential and coherent manner - Covers all bioprocess technologies required for the transfer of the bench findings to the clinic including the process components: cell signals, bioreactors, modeling, automation, safety, etc. - Presents comprehensive coverage of a true multidisciplinary topic by bringing together specialists in their particular area - Provides the basics of the processes and identifies the issues to be resolved for large scale cell culture by the bioengineer - Addresses the critical need in bioprocessing for the successful delivery of stem cell technology to the market place by involving professional engineers in sections of the book
Consult the definitive resource in rheumatology for an in-depth understanding of scientific advances as they apply to clinical practice. Masterfully edited by Drs. Gary S. Firestein, Ralph C. Budd, Sherine E. Gabriel, Iain B. McInnes, and James R. O'Dell, and authored by internationally renowned scientists and clinicians in the field, Kelley and Firestein’s Textbook of Rheumatology, 10th Edition, delivers the knowledge you need for accurate diagnoses and effective patient care. From basic science, immunology, anatomy, and physiology to diagnostic tests, procedures, and specific disease processes, this state-of-the-art reference provides a global, authoritative perspective on the manifestations, diagnosis and treatment of rheumatic diseases. An ideal balance of the basic science you need to know and how to apply that information to clinical practice. An integrated chapter format allows you to review basic science advances and their clinical implications in one place and get dependable, evidence-based guidance for the full range of rheumatologic diseases and syndromes. Consult this title on your favorite e-reader, conduct rapid searches, and adjust font sizes for optimal readability. New content on the latest diagnostic perspectives and approaches to therapy, including five brand-new chapters: Metabolic Regulation of Immunity, Principles of Signaling, Research Methods in the Rheumatic Diseases, Novel Intracellular Targeting Agents, and IgG4-Related Diseases. New and expanded chapter topics on small molecule treatment, biologics, biomarkers, epigenetics, biosimilars, and cell-based therapies. More schematic diagrams clearly summarize information and facilitate understanding.
The first book to explore the potential of tunable functionalities in organic and hybrid nanostructured materials in a unified manner. The highly experienced editor and a team of leading experts review the promising and enabling aspects of this exciting materials class, covering the design, synthesis and/or fabrication, properties and applications. The broad topical scope includes organic polymers, liquid crystals, gels, stimuli-responsive surfaces, hybrid membranes, metallic, semiconducting and carbon nanomaterials, thermoelectric materials, metal-organic frameworks, luminescent and photochromic materials, and chiral and self-healing materials. For materials scientists, nanotechnologists as well as organic, inorganic, solid state and polymer chemists.