Early osteoarthritis is novel topic for orthopedic surgeons and its process begins immediately after joint injury. The mechanical restoration of the joint surface or ligamentous stability is not sufficient to restore the homeostatic environment in the joint, and this leads to osteoarthritis, despite mechanical stability and alignment. This book sheds light on the various mechanisms and systems involved in the gradual decline of the injured joint toward manifest osteoarthritis. Published in collaboration with ISAKOS, this volume appeals to all stakeholders in surgical orthopaedics and sports medicine.
Rheumatoid arthritis (RA) is the most common and most severe form of inflammatory arthritis. The pathogenesis of RA has been the subject of intense research for several decades. The prevailing hypotheses have changed over the years, and have attempted to incorporate the most recent data. Although T cells represent an important component of the cells which infiltrate the joint synovium, their contribution at a late stage of the disease remains a matter of debate. The goal of this book is to outline the major arguments and data suggesting that T cells may, or may not, be central players in the pathogenesis of chronic RA. While each of the editors and authors has his/her own bias (as will be clear by reading the respective chapters), our hope is that the readers will enjoy a complete and balanced view of the critical questions and experiments. This is not just an intellectual exercise since the direction of future therapeutic interventions depends heavily on how one interprets the pathogenesis of RA and the contribution of T cells.
Autoimmune diseases are diverse and responsible for considerable morbidity. Their etiology remains largely unknown, and current therapy with anti-inflammatory drugs is prone to adverse effects, and rarely curative. New therapies with anti-cytokine antibodies or receptors are promising, but require frequent administration of expensive protein drugs. Gene Therapy of Autoimmune Diseases comprehensively reviews research in gene therapy for autoimmune diseases with viral or non-viral vectors. Gene therapy offers the possibility of long-term, continuous delivery of a wide variety of immunosuppressive, anti-inflammatory, or tolerance-inducing agents. Moreover, highly specific genetically modified cells can be produced. This book discusses the most promising avenues in this exciting new field.
Polymyositis and Dermatomyositis provides extensive information regarding Polymyositis and Dermatomyositis (PM/DM), which is described as a heterogeneous disease complex. This book is divided into four sections: Part I (Clinical Features) covers the classification of PM/DM, details of the clinical presentation, and the disease's association with the other connective tissue disorders and malignancies. Part II (Etiology and Mechanisms) covers advances in the immunopathology and viral etiology of PM/DM along with a frequently recognized entity: inclusion body myositis. Part III (Diagnosis and Treatment) covers the histologic, muscle enzyme histochemical, electron microscopic, and resin histology features of PM/DM along with those electromyographic features that could help make a more accurate diagnosis. Part IV (Overview) summarizes the issues that may not have been clear and highlights differing and unsettled views or present available data. This text is directed to clinicians in private practice or in academic institutions concerned with PM/DM patients, including neurologists, rheumatologists, pediatricians, dermatologists, physiatrists, and neuromuscular investigators. This book is intended as well for neuromuscular pathologists who interpret muscle biopsy specimens and electromyographers who perform EMG studies to help determine the clinical diagnosis. Researchers in immunology and immunopathology of neuromuscular diseases will find discussions in this book invaluable.
This book is devoted to innovative medicine, comprising the proceedings of the Uehara Memorial Foundation Symposium 2014. It remains extremely rare for the findings of basic research to be developed into clinical applications, and it takes a long time for the process to be achieved. The task of advancing the development of basic research into clinical reality lies with translational science, yet the field seems to struggle to find a way to move forward. To create innovative medical technology, many steps need to be taken: development and analysis of optimal animal models of human diseases, elucidation of genomic and epidemiological data, and establishment of “proof of concept”. There is also considerable demand for progress in drug research, new surgical procedures, and new clinical devices and equipment. While the original research target may be rare diseases, it is also important to apply those findings more broadly to common diseases. The book covers a wide range of topics and is organized into three complementary parts. The first part is basic research for innovative medicine, the second is translational research for innovative medicine, and the third is new technology for innovative medicine. This book helps to understand innovative medicine and to make progress in its realization.
The Janeway's Immunobiology CD-ROM, Immunobiology Interactive, is included with each book, and can be purchased separately. It contains animations and videos with voiceover narration, as well as the figures from the text for presentation purposes.
Human Genome Methods is a practical guide to the application of molecular biology and genetics techniques to research on human cells. Written by recognized authorities who often originated the techniques described, chapters present experimental protocols that are readily used at the laboratory bench. The step-by-step protocols are concise and easy to follow to be reproducible by researchers of various levels of expertise. Suggestions for successful application of procedures are included, along with recommended materials and suppliers. Helpful background information and results of applying the methods described are also given. Section I covers topics such as microsatellite DNA, dynamic mutations, gene targeting using the DNA triple helix, and protease footprinting of DNA-protein interactions. This is followed in Section II by discussions of in situ hybridization, cell synchronization, and cell cycle specific gene expression. Methods concerned with programmed cell death are explored in Section III, which covers this emerging research area and the culture and analysis of cancer cells. Section IV presents methods related to transgene analysis of mouse embryonic stem cells, generation and knockout studies with null mutant mice, and mouse models for human disease. The final section reviews genome mapping, with an emphasis on the construction of linkage maps and on somatic cell hybrids for mapping disease genes.
Dieses Fachbuch erläutert die molekularen Grundlagen von Entzündungen, spannt den Bogen zu Infektionskrankheiten und den Zusammenhang zwischen Entzündungen und chronischen Erkrankungen, behandelt abschließend den Heilungsprozess und zeigt Therapiemöglichkeiten.
Provides a thorough overview of current knowledge of stress proteins in both normal and disease physiology and evaluates the potential for developing novel diagnostic, prophylactic, and therapeutic approaches to control human disease based on the latest stress-protein research.
