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Neuroimmunology is a rapidly-growing branch of biomedical science that studies of all aspects of the interactions between the immune system and nervous system. It deals with, among other things, the physiological functioning of the neuroimmune system in states of both health and disease; malfunctions of the neuroimmune system in disorders (autoimmune diseases, hypersensitivities, immune deficiency), the physical, chemical and physiological characteristics of the components of the neuroimmune system in vitro, in situ, and in vivo. Despite the brain's status as an immune privileged site, an extensive bi-directional communication takes place between the nervous and the immune system in both health and disease. Immune cells and neuroimmune molecules such as cytokines, chemokines, and growth factors modulate brain function through multiple signalling pathways throughout the lifespan. Immunological, physiological and psychological stressors engage cytokines and other immune molecules as mediators of interactions with neuroendocrine, neuropeptide, and neurotransmitter systems. For example, brain cytokine levels increase following stress exposure, while treatments designed to alleviate stress reverse this effect. This book presents leading research in the field.
Pathbreaking research offers new hope for treating brain diseases and injuries and for maintaining brain health even into old age In the past, the brain was considered an autonomous organ, self-contained and completely separate from the body's immune system. But over the past twenty years, neuroimmunologist Michal Schwartz, together with her research team, not only has overturned this misconception but has brought to light revolutionary new understandings of brain health and repair. In this book Schwartz describes her research journey, her experiments, and the triumphs and setbacks that led to the discovery of connections between immune system and brain. Michal Schwartz, with Anat London, also explains the significance of the findings for future treatments of brain disorders and injuries, spinal cord injuries, glaucoma, depression, and other conditions such as brain aging and Alzheimer's and Parkinson's diseases. Scientists, physicians, medical students, and all readers with an interest in brain function and its relationship to the immune system in health and disease will find this book a valuable resource. With general readers in mind, the authors provide a useful primer to explain scientific terms and concepts discussed in the book.
For many years, the immune and central nervous systems were thought to function independently with little or no interaction between the two. This view has und- gone dramatic changes over the past three decades. Indeed, we now know that there exists various feedback loops between the brain and immune systems that impact signi cantly upon different behavioral processes, including normal behavior and mental disorders. Pioneering efforts in generating this change were initiated by a number of early investigators. Included were those whose efforts were directed at establishing neuroimmune connections as well as others whose research focused upon the relationship between immunity, cytokines, and behavior. This book brings together outstanding scientists and clinicians who have made major contributions to the rapidly developing eld investigating the relationship between immunity and behavior. The book is divided into three parts. The rst part describes pathways by which the brain and immune systems communicate and int- act with each other. In the chapter “Cytokines and the Blood–Brain Barrier” p- vides insight into interactions between the blood–brain barrier and cytokines. Such interactions underlie basic communication between the immune system and brain that are present in normal as well as in disease conditions. In the chapter “Neu- chemical and Endocrine Responses to Immune Activation: The Role of Cytokines,” the neurochemical and endocrine consequences of immune challenge and cytokine administration on central neurotransmitter activity are discussed.
This book provides a clinical focus on neuroinflammatory diseases as well as a review in pathophysiology and treatment approaches. Organized into six parts, the book begins with a basic review of the immune system and concepts for learning and treating neuroimmune conditions. The next four sections cover specific subfields of neuroimmunology and autoimmune neurology - the clinical and diagnostic features of multiple sclerosis, other autoimmune conditions of the central nervous system, autoimmune conditions of the peripheral nervous system, and systemic autoimmune conditions that affect the nervous system. To conclude, Section six discusses various clinical approaches to specific presentations in neuroimmunology, including pediatric demyelinating diseases. These sections provide practical clinical information to improve the reader’s knowledge in this complex field. The chapters are written by world renown authors with extensive knowledge to help provide up to date information. The full scope of autoimmune neurology is discussed, which is a unique feature of this book. Neuroimmunology serves as a resource for those in training including residents and fellows to provide clear clinical reasoning and background in a rapidly advancing field.
This book addresses important issues regarding the interaction between the nervous system, the immune system, and the digestive system. Gut flora has a profound influence on the shaping of the immune response, not only in the gastrointestinal system but also in the nervous system. Fascinatingly, manipulation of intestinal immune responses can be used to modulate neurological disease. Conversely, the nervous system and the psyche have significant effects on the functioning of the gut and liver. After introductory chapters on the neurology, the immunology and microbiology of the gut, the effects of the gut immune system and gut flora and its manipulation on neurological disease are discussed, followed by molecular mimicry and immune tolerance in neuroimmune diseases. Additionally, several chapters deal with gastrointestinal manifestations of neurological diseases. Neuro-Immuno-Gastroenterology is aimed at neurologists, gastroenterologists, and immunologists.
Why a book on molecular neurology? Molecular neuroscience is advancing at a spectacular rate. As it does so, it is revealing important clues to the pathogenesis and pathophysiology of neurological diseases, and to the therapeutic targets that they present. Medicines work by targeting molecules. The more specific the targeting, the more specific the actions, and the fewer the side effects. Molecular Neurology highlights, for graduate and MD-PhD students, research fellows and research-oriented clinical fellows, and researchers in the neurosciences and other biomedical sciences, the principles underlying molecular medicine as related to neurology. Written by internationally recognized experts, this well-illustrated and well-referenced book presents the most up-to-date principles and disease examples relevant to molecular neurology, and reviews the concepts, strategies, and latest progress in this field. This book will interest anyone studying the molecular basis of neurology, or developing new therapies in neurology. - Describes the newest molecular aspects of neurological disorders - Provides an introduction to neurological disorders for basic scientists - Updates clinicians and clinical researchers on the most recent developments
Late aging associated changes in alcohol sensitivity, neurobehavioral function, and neuroinflammation, Volume 148, the latest release in the International Review of Neurobiology series, highlights new advances in the field, with this new volume presenting interesting chapters on a variety of timely topics. Each chapter is written by an international board of authors. Provides the authority and expertise of leading contributors from an international board of authors Presents the latest release in the International Review of Neurobiology series Includes the latest information on late aging-associated changes in alcohol sensitivity, inflammation and cognitive decline
Autoimmune Neurology presents the latest information on autoimmune neurologic disease, the immune response to the body where organs run wild, causing the immune system to attack itself. Autoimmunity is a main element in numerous nervous system diseases and can target any structure within the central or peripheral nervous system. Over the past 20 years, significant advances in our understanding of the pathophysiology of autoimmune disorders, including the use of biomarkers has led to new diagnosis and treatment options. Neurologic conditions associated with autoimmune reactions include dementia, neuromuscular disease, epilepsy, sleep disorders, diabetes, and other common neurologic disorders and disease. This current tutorial-reference will be a must-have title for clinical neurologists, research neurologists, neuroscientists, and any medical professional working with autoimmune disease and disorders. - Includes comprehensive coverage of autoimmune neurology - Details the latest techniques for the study, diagnosis, and treatment of diseases and disorders, including dementia, neuromuscular disease, epilepsy, and sleep disorders - Presents a focused reference for clinical practitioners and the clinical neurology and neurology research communities
Clinical Neurimmunology is the major reference text in the field, providing broad and comprehensive coverage of the interaction between the nervous and immune systems in both normal and diseased states. Understanding this interaction is fundamental to developing therapeutic approaches to disease and injury of the nervous system that are currently only marginally amenable to therapy. Neuroimmunology is a well-recognised and growing specialty world wide, both at the basic science and clinical level. It is a fast moving field and this is the most up to date text available. Chapters are dedicated to the role of the immune system in disorders affecting both the central and peripheral nervous systems, including important neurodegenerative diseases (such as multiple sclerosis and HIV-related neural degeneration) which cause life-long disability. Extensive coverage is given to a whole array of immune-directed therapies. The book has a strong international team of well respected, high profile editors and authors. The first edition published to extensive and positive reviews and has established itself as the principal reference source in the field. This second edition summarizes recent advances in clinical neuroimmunology in a comprehensive and unbiased way.
This volume explores the recent advances in the study of translational paths in central inflammation and focuses on ongoing pathophysiological processes and the transition between inflammatory stages and progressive states with neurodegeneration. Chapters cover topics such as pathophysiological hallmarks of neuroinflammation from tissue damage to reorganization; connecting studies of mouse models; and investigations of humans with multiple sclerosis. In the Neuromethods series style, chapters include the kind of detail and key advice from the specialists needed to get successful results in your laboratory. Cutting-edge and practical, Translational Methods for Multiple Sclerosis Research is a valuable resource for researchers who want to learn more about this chronic ad progressive disease, and pave the way for new advancements.