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Immunity and Inflammation in Health and Disease: Emerging Roles of Nutraceuticals and Functional Foods in Immune Support provides a comprehensive description of the various pathways by which the vertebrate immune system works, the signals that trigger immune response and how fnew and novel nutraceuticals and functional foods, can be used to contain inflammation and also to boost immunity and immune health. Inflammation is a tool to fight pathogens and the vertebrate immune system has a very complex network of cells to achieve this. However inflammation that goes awry is also the leding cause of several diseases ranging from cardiovascular diseases to diabetes. This book covers the entire gamut from the various cellular players in the inflammation-immune response to its ramifications in terms of protection against pathogens as well as in onset of metabolic, aging and auto-immune related diseases. Finally, the balancing role of dietary nutrients between host defence and immune support is also showcased. The first three scetions explain the various components of the immune system and their modes of activation. The fourth section deals with the ramifications of a robust and execessive inflammatory response. The fifth section is focused on the association between nutrition and immunity and how deficiencies in certain nutrients may affect immunocompetence. The sixth section chapters represent a vision of paradigm shifts within the field and discusses possible future directions. This bool will be a valuable reference for researchers studying immune health either in academia, or in the nutraceutical or functional food industries. Product developers in nutraceutical, supplement, functional food, and health food companies will also appreciate the information presented here. - Conceptualizes the key features in natural products which can boost immune function and immune health - Explains the intricate mechanistic aspects and balance behind immune health - Presents the pathophysiology of several diseases associated with immune system disruption
An integrated introduction to the basic science & clinical applications of contemporary immunology. The book has four basic aims: (1) To ground the student in the basic principles of immunology (2) To demonstrate how immunologic mechanisms prevent & produce human disease (3) To foster problem-solving skills (4) To expose the student to the new technology in use in research, & demonstrate its applications to clinical medicine.
Inflammation and Immunity in Depression: Basic Science and Clinical Applications is the first book to move beyond the established theory of cytokine-induced depression and explore the broader role the immune system plays in this devastating mood disorder. The book fully explores the most recent lines of research into this rapidly advancing field, including alterations of T-cells, the neurobiological implications of neuroinflammation and immune alterations for brain development and function, and the genetic components of neuroinflammation in depression, including the relationships between stress and inflammation that are revealing gene-environment interactions in the disorder. Combining contributions from researchers worldwide, this book provides the most comprehensive discussion available today on the involvement of the innate immune and adaptive immune systems in depressive disorder. Chapters span neuroscience, psychology, clinical applications and future directions, making this book an invaluable resource for advanced students, researchers and practitioners who need to understand the complex and varied role of inflammation and immune responses in depression. - Synthesizes current knowledge of inflammation and immunity in depression, ranging from basic neuroscience research, to clinical applications in psychiatry - Expands on the long-established theory of cytokine-induced depression to discuss broader involvement of the immune system - Explores translational potential of targeting immune dysfunction for clinical interventions
"A subject collection from Cold Spring Harbor perspectives in biology."
This selection of articles from the Encyclopedia of the Eye provides a comprehensive overview of immunological features, diseases and inflammation of the eye and its support structures and organs. Rather than taking an immunological focus that is strictly suitable for clinicians, the volume offers a considerable basic science background and addresses a broad range of topics - the immune system of the eye, its various disorders, mechanisms of inflammation of the eye and visual system, treatment, wound healing mechanisms, stem cells, and more. The first single volume to integrate comparative studies into a comprehensive resource on the neuroscience of ocular immunology Chapters are carefully selected from the Encyclopedia of the Eye by the world's leading vision researchers The best researchers in the field provide their conclusions in the context of the latest experimental results
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.
The acute inflammatory response is the body's first system of alarm signals that are directed toward containment and elimination of microbial invaders. Uncontrolled inflammation has emerged as a pathophysiologic basis for many widely occurring diseases in the general population that were not initially known to be linked to the inflammatory response, including cardiovascular disease, asthma, arthritis, and cancer. To better manage treatment, diagnosis, and prevention of these wide-ranging diseases, multidisciplinary research efforts are underway in both academic and industry settings. This book provides an introduction to the cell types, chemical mediators, and general mechanisms of the host's first response to invasion. World-class experts from institutions around the world have written chapters for this introductory text. The text is presented as an introductory springboard for graduate students, medical scientists, and researchers from other disciplines wishing to gain an appreciation and working knowledge of current cellular and molecular mechanisms fundamental to inflammation.
The immune system has been known to be capable of distinguishing self from non-self since the pioneering work of Paul Erhlich more than a century ago. Originally described in experiments studying blood transfusion comp- ibility, the principle of “horror autotoxicus” is still valid, although today the phenomenon is usually described in terms of tolerance or ignorance. A great deal has been learned about the various processes preventing self-reactivity normally. These include processes that operate during immune cell ontogeny and subsequently on reactivity of mature lymphocytes in the periphery. They encompass mechanisms that are intrinsic to potentially reactive lymphocytes and can result in central or peripheral deletion or the alteration of functional potential. In addition, there are in?uences that are extrinsic to potentially auto-reactive lymphocytes, including the function of regulatory cells, d- ferentiation state of antigen-presenting cells, availability of self-antigen, the cytokine and chemokine milieu, as well as the traf?cking patterns involved in generating productive immune interactions. It is clear that the immune system devotes a considerable effort to the avoidance of the development of potentially pathogenic self-reactivity. Despite this, the development of self-reactivity is relatively common. - though the development of autoimmune disease is less frequent, autoimmune diseases, such as rheumatoid arthritis, multiple sclerosis, systemic lupus e- thematosus, psoriasis, thyroiditis, and myasthenia gravis, are all too common, and can cause considerable morbidity and even mortality.
The nervous system plays an important role in the regulation of immunity and inflammation. On the other hand unbalanced immune responses in inflammatory and autoimmune conditions may have a deleterious impact on neuronal integrity and brain function. Recent studies have characterized neural pathways communicating peripheral inflammatory signals to the CNS, and brain- and spinal cord-derived circuitries controlling various innate and adaptive immune responses and inflammation. A prototypical neural reflex circuit that regulates immunity and inflammation is the vagus nerve-based “inflammatory reflex”. Ongoing research has revealed cellular and molecular mechanisms underlying these neural circuits and indicated new therapeutic approaches in inflammatory and autoimmune disorders. Pharmacological and bioelectronic modulation of neural circuitry has been successfully explored in preclinical settings of sepsis, arthritis, inflammatory bowel disease, obesity-driven disorders, diabetes and other diseases. These studies paved the way to successful clinical trials with bioelectronic neuronal modulation in rheumatoid arthritis and inflammatory bowel disease. Dysregulated release of cytokines and other inflammatory molecules may have a severe impact on brain function. Brain inflammation (neuroinflammation), imbalances in brain neuronal integrity and neurotransmitter systems, and cognitive impairment are characteristic features of post-operative conditions, sepsis, liver diseases, diabetes and other disorders characterized by immune and metabolic dysregulation. Derangements in cytokine release also play a pivotal role in depression. Characteristic brain reactive antibodies in autoimmune conditions, including systemic lupus erythematosus and neuromyelitis optica, significantly contribute to brain pathology and cognitive impairment. These studies, and the simultaneous characterization of neuro-protective cytokines, identified new therapeutic approaches for treating neurological complications in inflammatory and autoimmune disorders. This Frontiers Research Topic is a forum for publishing research findings and methodological and conceptual advances at the intersection of immunology and neuroscience. We hope that presenting new insight into bi-directional neuro-immune communication in inflammation and autoimmunity will foster further collaborations and facilitate the development of new efficient therapeutic strategies.