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Author: Julie Lasselin Publisher: Frontiers Media SA ISBN: 2889457842 Category : Languages : en Pages : 172
Book Description
Experimental and clinical evidence demonstrates an intense crosstalk among the nervous, endocrine and immune systems. The central nervous system (CNS) not only has the capacity to affect peripheral immune function, but is also able to sense and process signals from the peripheral immune system. The bi-directional interaction between the CNS and the peripheral immune system has gained great interest as it can help better understand disease pathophysiology as well as improving health and treatment outcomes in patients. On the one hand, inflammatory factors are known to affect CNS functions and to induce neuropsychiatric symptoms, making immune-to-brain communication highly relevant for psychiatric diseases and their treatments. On the other hand, analyzing pathways of brain-to-immune communication will help to understand the pathophysiology of chronic inflammatory disorders and will form the basis for optimizing treatment of these diseases.
Author: Julie Lasselin Publisher: Frontiers Media SA ISBN: 2889457842 Category : Languages : en Pages : 172
Book Description
Experimental and clinical evidence demonstrates an intense crosstalk among the nervous, endocrine and immune systems. The central nervous system (CNS) not only has the capacity to affect peripheral immune function, but is also able to sense and process signals from the peripheral immune system. The bi-directional interaction between the CNS and the peripheral immune system has gained great interest as it can help better understand disease pathophysiology as well as improving health and treatment outcomes in patients. On the one hand, inflammatory factors are known to affect CNS functions and to induce neuropsychiatric symptoms, making immune-to-brain communication highly relevant for psychiatric diseases and their treatments. On the other hand, analyzing pathways of brain-to-immune communication will help to understand the pathophysiology of chronic inflammatory disorders and will form the basis for optimizing treatment of these diseases.
Author: Federico Bermudez-Rattoni Publisher: CRC Press ISBN: 1420008412 Category : Psychology Languages : en Pages : 368
Book Description
A comprehensive, multidisciplinary review, Neural Plasticity and Memory: From Genes to Brain Imaging provides an in-depth, up-to-date analysis of the study of the neurobiology of memory. Leading specialists share their scientific experience in the field, covering a wide range of topics where molecular, genetic, behavioral, and brain imaging techniq
Author: Zhang Pengyue Publisher: Frontiers Media SA ISBN: 2832532535 Category : Science Languages : en Pages : 132
Book Description
The brain is a critical organ with neuro-immune communication. The nervous system and immune system evolved to provide regulation of physiological homeostasis and protect against threats. Neuro-immune communication is correlated with physiological functions of various tissues and organs, and the internal environment balance. In brain trauma, the neural network is destroyed and the neuro-immune communication process is impaired. However, the research on this process is insufficient and limited. A thorough clarification of the cellular and molecular mechanisms of neuro-immune communication in brain injury is an essential necessary endeavor in the search for new therapeutic targets for brain injury. This Research Topic is devoted to the cellular and molecular mechanisms of neuro-immune communication in brain injury and on the meaningful exploration of how the nervous system regulates the immune system to promote neurofunctional recovery after brain injury.
Author: Adam Denes Publisher: Frontiers Media SA ISBN: 2889195147 Category : Brain Languages : en Pages : 110
Book Description
Brain-immune interactions are essential to maintain health and their dysfunction contributes to diverse human diseases. Recent data show that haematopoietic processes and immune organs are under central autonomic control. Deficient regulation of inflammatory events contributes to brain diseases, whereas acute or chronic brain injury is linked with the development of systemic inflammatory conditions or immunosuppression. At present, common disorders with high socio-economic burden such as cancer, cardiovascular-, neuroinflammatory- and neurodegenerative diseases, asthma, allergies, autism, psychiatric conditions and sepsis are believed to be influenced, at least in part, by the dysfunction of brain-immune communication. Since the median age of the world's population is increasing rapidly, it is expected that the burden of common non-communicable diseases will further increase, which represents a huge challenge to the health care systems worldwide. Thus, there is an increasing demand to understand and treat complex diseases, many of which are age-related, and this is not possible unless the fine-tuned communication between large systems -such as the nervous and the immune system- is comprehensively understood. Although it is impossible to cover all areas of relevant research in this field, papers in this eBook give some insight to a few important aspects of brain-immune interactions and their contribution to disease. We hope that this collection could stimulate further relevant research and facilitate discussions to support the understanding of the highly complex interactions between the immune system and the brain in health and disease.
Author: Jaclyn M. Schwarz Publisher: Morgan & Claypool Publishers ISBN: 1615043519 Category : Science Languages : en Pages : 131
Book Description
The developing brain is exquisitely sensitive to both endogenous and exogenous signals which direct or significantly alter the developmental trajectory of cells, neural circuits, and associated behavioral outcomes for the life of the individual. Contrary to initial dogma that the brain is one of the few organs within the body that is immune-privileged, evidence indicates that the immune system has a critical role in brain function during development as well as during sickness and health in adulthood. Microglia are the primary immune cells within the brain, and they are in constant communication with the peripheral immune system and surrounding cell types within the brain. We describe the important role of the immune system, including microglia, during brain development, and discuss some of the many ways in which immune activation during early brain development can affect the later-life outcomes of neural function, immune function, and cognition. Growing evidence indicates that there is a strong link between many neuropsychiatric disorders and immune dysfunction, with a distinct etiology in neurodevelopment. Thus, understanding the role of the immune system and immune activation during the critical period of brain development is a necessary step toward understanding the potential origins of these devastating disorders. Table of Contents: Introduction / The Immune Response / Brain-Immune Communication / Microglia Are Immune Cells of the Brain / The Functional Role of Microglia and Immune Molecules in Neurodevelopment / Early-Life Programming of Brain and Behavior: A Critical Role for the Immune System / Commonly Used Models of Early Life Immune Activation in the Rodent / Early Life Immune Activation and Cognitive Impairment in Adulthood / Mechanisms Underlying the Enduring Changes in Neuroimmune Function Caused by Early Life Infection / Toll-Like Receptors and Immune Activation During Early Brain Development / Environmental Triggers of TLR Activation: Long-Term Programming of Brain and Behavior / Future Directions to Understanding Immune Function and Brain Development / References
Author: Eckart D. Gundelfinger Publisher: Springer Science & Business Media ISBN: 3540368299 Category : Science Languages : en Pages : 320
Book Description
This collection of reviews contains contributions by internationally recognized immunologists and molecular and cellular neurobiologists. Uniquely, it puts side by side cellular communication devices and signaling mechanisms in the immune and nervous systems and discusses mechanisms of interaction between the two systems, the significance of which has only recently been fully appreciated.
Author: Ihssane Zouikr Publisher: Frontiers Media SA ISBN: 2889453782 Category : Languages : en Pages : 176
Book Description
It is now well appreciated that the immune system, in addition to its traditional role in defending the organism against pathogens, communicate in a well-organized fashion with the brain to maintain homeostasis and regulate a set of neural functions. Perturbation in this brain-immune interactions due to inflammatory responses may lead to psychiatric and neurological disorders. Microglia are one of the essential cells involved in the brain-immune interactions. Microglial cells are now not simply regarded as resident tissue macrophages in the brain. These cells are derived from myeloid progenitor cells in the yolk sac in early gestation, travel to the brain parenchyma and interact actively with neurons during the critical period of neurogenesis. Microglia provide a trophic support to developing neurons and take part in the neural wiring through the activity-dependent synapse elimination via direct neuron-microglia interactions. Altered microglial functions including changes in the gene expression due to early life inflammatory events or psychological and environmental stressors can be causally related to neurodevelopmental diseases and mental health disorders. This type of alterations in the neural functions can occur in the absence of infiltration of inflammatory cells in the brain parenchyma or leptomeninges. In this sense, the pathogenetic state underlying a significant part of psychiatric and neurological diseases may be similar to “para-inflammation”, an intermediate state between homeostatic and classical inflammatory states as defined by Ruslan Medzhitov (Nature 454:428-35, 2008). Therefore, it is important to study how systemic inflammation affects brain health and how local peripheral inflammation induces changes in the brain microenvironment. Chronic pain is also induced by disturbance in otherwise well-organized multisystem interplay comprising of reciprocal neural, endocrine and immune interactions. Especially, early-life insults including exposure to immune challenges can alter the neuroanatomical components of nociception, which induces altered pain response later in life. Recently the discrete roles of microglia and blood monocyte-derived macrophages are being defined. The distinction may be further highlighted by disorders in which the brain parenchymal tissue is damaged. Therefore, studies investigating the dynamics of immune cells in traumatic brain injury and neurotropic viral infections including human immunodeficiency virus, etc. as well as neurodegenerative diseases such as amyotrophic lateral sclerosis are promising to clarify the interplay between the central nervous and immune systems. The understanding of the histological architecture providing the infrastructure of such neuro-immune interplay is also essential. This Frontiers research topic brings together fourteen articles and aims to create a platform for researchers in the field of psychoneuroimmunology to share the recent theories, hypotheses and future perspectives regarding open questions on the mechanisms of cell-cell interactions with chemical mediators among the nervous, immune and endocrine systems. We hope that this platform would reveal the relevance of the studies on multisystem interactions to enhance the understanding of the mechanisms underlying a wide variety of neurological and psychiatric disorders.
Author: Valentin A. Pavlov Publisher: Frontiers Media SA ISBN: 2889455335 Category : Languages : en Pages : 222
Book Description
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.
Author: Bruce S. Rabin Publisher: Wiley-Liss ISBN: Category : Medical Languages : en Pages : 368
Book Description
Written by a renowned figure in the field of immunology and compiling a wealth of scientific information, Stress, Immune Function, and Health: The Connection looks at the long-term effects of stress on human health from a psychoneuroimmunological approach. The recent changes in dietary modifications, clinical applications, and evolution in the field of immunology have created the need for a book which addresses the growing awareness of health benefits that can be achieved by buffering the effects of stress on the immune system. Emphasizing the importance of the interaction among the mind, the body, and physical health, this reference includes important developmental procedures that can be used to resist stress on the immune system. By examining components of the immune system, along with the effects of psychological stress and the capacity for hormonal response, author Bruce Rabin demonstrates, in a concise, accessible manner, the ability of an individual's immune system to alter susceptibility to immune-mediated diseases. In addition, the book examines several key issues in this rapidly expanding field, including: * Information and examples that illustrate how distinct areas of the brain that perceive the presence of a stressor are able to communicate with the cells of the immune system * The correlation between stress-related changes in health practices and stressor-induced risks of disease development * The effect on the immune system due to stress from an increased concentration of neuropeptides and hormones * Behaviors and beliefs that can reduce the harmful effects of stress on the immune system by interfering with the stress-responsive areas of the brain * The issue of stress during pregnancy and the early period of development on behaviors and immune functions in children An authoritative guide for all researchers and students in the fields of immunology, neuroscience, and psychology, Stress, Immune Function, and Health: The Connection is also an essential reference for physicians and nurses concerned with stress and immune-related diseases.
Author: Publisher: Elsevier ISBN: 0080465013 Category : Science Languages : en Pages : 1291
Book Description
Psychoneuroimmunology is the study of interactions among behavioral, neural and endocrine, and immunologic processes of adaptation. These two volumes provide a clearly written, extensively referenced summary of some of the behavioral, neural and endocrine regulators of immune responses and immunologically mediated disease processes and of the behavioral and neuroendocrine effects of immune system activity. Several chapters expand upon topics reviewed in earlier editions of this series; most chapters cover active areas of research that have not previously been reviewed. As illustrated in this fourth edition, interdisciplinary research continues to provide evidence that the brain and immune system represent a single, integrated system of defense. Fully revised and updated fourth edition of the classic reference Provides a neuroendocrine and immunologic perspective for the behavioral scientist Provides a behavioral and neuroscience perspective for the immunologist Helps the reader translate basic science findings into clinically relevant information Provides the reader with the background for and foundation of integrative research and integrative medicine Provides an encyclopedic resource for advanced undergraduates and for pre- and post-doctoral students as well as active researchers
Author: Julie Lasselin
Author: Julie Lasselin
Author: Federico Bermudez-Rattoni
Author: Zhang Pengyue
Author: Adam Denes
Author: Jaclyn M. Schwarz
Author: Eckart D. Gundelfinger
Author: Ihssane Zouikr
Author: Valentin A. Pavlov
Author: Bruce S. Rabin
Author: