In addition, fundamental questions concerning the bi-directional interactions between the central nervous system and the immune system are discussed and the role of viruses and infectious processes closely examined. As such, this book offers a unique presentation of the state of the art in psychoimmunology and, at the same time, shows many important challenges for future research into the field of intersystemic interactions and their impact on the etiology and pathogenesis of psychiatric diseases.
The Immune System and Mental Health fully investigates how immune-related cellular, molecular and anatomical changes impact mental functioning. The book combines human and animal studies to reveal immunological changes related to mental-health problems. In addition, users will find comprehensive information on new research related to the microbial composition of the gut, aka, the microbiome, and how it influences brain function and mental health. Common comorbidities with mental illness and their inherent immunological or inflammatory components are also covered. Written by leaders in the field, the book synthesizes basic and clinical research to provide a thorough understanding on the role of immunity in neuropsychiatry. Sociology, psychology, psychiatry, neuroscience and genetics have provided considerable explanations and solutions to some of the most intractable mental-health problems. But researchers are increasingly relying on investigations of the immune system to identify factors that can undermine and impair mental health. This book covers devastating mental-health conditions, such as depression, anxiety, schizophrenia, and autism-like spectrum disorders. In addition, degenerative disorders of the brain, such as Parkinson's and Alzheimer's-like dementia are explored. - Considers both basic human and animal studies that address immunological changes relating to mental health problems across the lifespan - Incorporates techniques, concepts and ideas from a variety of social, behavioral and life sciences - Explores the relatively new area of the microbiome and how the microbial composition of the gut influences brain function and mental health
This publication presents evidence about the magnitude and severe consequences of comorbidity of mental and physical illnesses from a personal and societal perspective. Leading experts address the huge burden of co-morbidity to the affected individual as well as the public health aspects, the costs to society and interaction with factors stemming from the context of socioeconomic developments. The authors discuss the clinical challenge of managing cardiovascular illnesses, cancer, infectious diseases and other physical illness when they occur with a range of mental and behavioral disorders, including substance abuse, eating disorders and anxiety. Also covered are the organization of health services, the training of different categories of health personnel and the multidisciplinary engagement necessary to prevent and manage comorbidity effectively. The book is essential reading for general practitioners, internists, public health specialists, psychiatrists, cardiologists, oncologists, medical educationalists and other health care professionals.
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.
Cytokines had been characterized in the early eighties as communication mole cules between immune cells, and between immunocytes and other peripheral cells, such as fibroblasts and endothelial cells. They play a key role in the regulation of the immune response and the coordination of the host response to infection. Based on these biological properties, nobody would have predicted that one decade later cytokines would burst upon neurosciences and permeate into several avenues of current research. In neurology, the connection between cytokines and inflammation, and the demonstration of a pivotal role of some of these molecules in cell death by apoptosis, prompted the investigation of their involvement in several neurological diseases involving an inflammatory component, including multiple sclerosis, brain trauma, stroke, and Alzheimer's disease. This movement started in the late eighties, and the corresponding field of research, known as neuroimmunology, is presently booming. In psychiatry, however, the relationship between cytokines and mental disorders was much less evident and took longer to materialize. The first indication that cytokines might be involved in psychopathology came from cancerology and internal medicine.
This ground-breaking book brings together researchers from a wide range of disciplines to discuss the control and coordination of processes involved in perceptually guided actions. The research area of motor control has become an increasingly multidisciplinary undertaking. Understanding the acquisition and performance of voluntary movements in biological and artificial systems requires the integration of knowledge from a variety of disciplines from neurophysiology to biomechanics.
Psychosis has been the central subject of psychiatric research for more than a century and yet it remains an intriguing enigma. This volume reviews the current status of research on psychosis in three different aspects, namely, phenomenology, which is the philosophical/conceptual basis of psychosis; psychopathology, which is the clinical manifestations of psychosis; and pathophysiology, which is the scientific pursuit for the mechanism of psychosis. Chapters focus on schizophrenia, covering such topics as clinical staging, negative symptoms, epigenetics, DNA methyltransferases, and more.
For years lip service has been paid to a belief in a biological basis for schizophrenia, but ,nevertheless psychosocial and psychodynamic "theories" of schizophrenia have been promulgated, and these have detracted from the all important biological work, Eclecticism has ruled the day and has caused considerable confusion, As a result research in schizophrenia has not progressed as fast as it should have done and treatment has been less effective than it could otherwise have been. This book is devoted to a wholly biological approach to the problem of schizophrenia, in the hope that many more workers will enter this exciting field of research. A wide variety of topics is covered, including brain structure; the genetics, pathogenesis and treatment of schizophrenia; a consideration of dietary and immunological factors and finally a chapter on alcoholism as it seems possible that the problems of schizophrenia and addiction are linked. We are grateful to all our contributors and to MTP Press for their enthusiasm for this book. Gwynneth P Hemmings William A Hemmings XI SECTION 1: Structure 1 The brain stem reticular formation K. E. WEBSTER There can be no question that the brain stem reticular lormation no longer exercises the same fascination for neurologists that it did a quarter of a century ago.
In the last decades, several in vitro and in vivo studies have revealed the existence of a very complex network between the neuroendocrine and immune system. Important molecular mechanisms underlying these interactions, in both physiological and pathological conditions, have also been described. Indeed, hormones play a pivotal role in the development and functional regulation of the immune system – both innate and acquired responses. Immune system cells present specific hormone receptors and themselves produce some hormones, thus influencing hormone secretion. More recently, the modulation of hormone secretion has been attempted for treating associated autoimmune disorders, further supporting the strong interplay between the endocrine and immune system. Distinguished experts, who have published extensively in their fields, have contributed comprehensive chapters to this volume. The focus is on the various aspects of endocrine-neuro-immune connections, providing an updated panorama - from basics to clinical applications - of current knowledge and still debated issues.
