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Systems Neuroscience in Depression provides a comprehensive overview of the normal and depressed brain processes as studied from a systems neuroscience perspective. Systems neuroscience uses a wide variety of approaches to study how networks of neurons form the bases of higher brain function. A broad overview is discussed starting with a background from neurodevelopment and neural understanding as well as novel treatment approaches for depression. This book covers basic developmental aspects and depressive psychopathology, as well as the basic scientific background from animal models and experimental research. Current advances in systems neuroscience are highlighted in studies from child and adolescent psychiatry. Integrated approaches are presented with regards to genetics, neuroimaging and neuroinflammation as well as neuroendocrinology. The field of systems and network neuroscience is evolving rapidly and this book provides a greatly needed resource for researchers and practitioners in systems neuroscience and psychiatry. Knowledge covering the whole life span from early to later life Comprehensively written chapters developing from molecules via epigenetics and neural circuits to clinical neuroscience Understanding the neurobiology of major depressive disorder Integrating stress and environmental factors with molecular underpinnings More than 25 illustrations and tables
Major depressive disorders have recently been associated with impairments in signaling pathways that regulate neuroplasticity and cell survival. Agents designed to directly target molecules in these pathways hold promise as new therapeutics for depression. With the collaboration of the most prestigious international specialists in biochemistry, mol
The Neuroscience of Depression: Features, Diagnosis and Treatment, is a comprehensive reference to the diagnosis and treatment of depression. This book provides readers with the mechanisms of depression reflecting on the interplay between depression and the biological and psychosocial processes. A detailed introduction to various episodes of depression, from PTSD to post-partum depression is provided, followed by a thorough discussion on biomarkers in depression and how to diagnose depression including the Hamilton Depression Rating scale. This book also includes three full sections on treatment options for depression, including pharmacological, behavioral and other novel regimes. The Neuroscience of Depression: Features, Diagnosis and Treatment is the only resource for researchers and practitioners studying, diagnosis and treating of depression. Covers a pharmacological and behavioral treatment options Features sections on diagnosis and biomarkers of depression Discusses depression in children, teens and adults Contains information on comorbidity of physical and mental conditions Includes more than 250 illustrations and tables
The Neuroscience of Depression: Genetics, Cell Biology, Neurology, Behaviour and Diet is a comprehensive reference to the aspects, features and effects of depression. This book provides readers with the behavior and psychopathological effects of depression, linking anxiety, anger and PSTD to depression. Readers are provided with a detailed outline of the genetic aspects of depression including synaptic genes and the genome-wide association studies (GWAS) of depression, followed by a thorough analysis of the neurological and imaging techniques used to study depression. This book also includes three full sections on the various effects of depression, including diet, nutrition and molecular and cellular effects. The Neuroscience of Depression: Genetics, Cell Biology, Neurology, Behaviour and Diet is the only resource for researchers and practitioners studying depression. Features a section on neurological and imaging, including SPECT Neuroimaging Analyzes how diet and nutrition effect depression Examines the molecular and cellular effects of depression Covers genetics of depression Includes more than 250 illustrations and tables
With recent studies using genetic, epigenetic, and other molecular and neurochemical approaches, a new era has begun in understanding pathophysiology of suicide. Emerging evidence suggests that neurobiological factors are not only critical in providing potential risk factors but also provide a promising approach to develop more effective treatment and prevention strategies. The Neurobiological Basis of Suicide discusses the most recent findings in suicide neurobiology. Psychological, psychosocial, and cultural factors are important in determining the risk factors for suicide; however, they offer weak prediction and can be of little clinical use. Interestingly, cognitive characteristics are different among depressed suicidal and depressed nonsuicidal subjects, and could be involved in the development of suicidal behavior. The characterization of the neurobiological basis of suicide is in delineating the risk factors associated with suicide. The Neurobiological Basis of Suicide focuses on how and why these neurobiological factors are crucial in the pathogenic mechanisms of suicidal behavior and how these findings can be transformed into potential therapeutic applications.
Depression is one of the most common mental-health disorders, caused by a variety of genetic, biological, environmental, and psychological factors combined. Major depressive disorder (MDD) is typically treated with first-line antidepressant agents that primarily target monoamine neurotransmission; however, only approximately one third of patients with MDD achieve remission following a trial with such an antidepressant. Furthermore, MDD is a heterogeneous phenotype, and new frameworks such as the NIMH Research Domain Criteria (RDoC) may provide a more accurate, biologically based comprehension of the symptomatic heterogeneity of this devastating illness, and certain symptomatic clusters may be promising targets for novel therapeutics, such as drug and psychological treatments for the management of the cognitive impairments that can encompass several domains and contribute to psychosocial function, and that can persist for many patients even in periods of symptomatic remission. Neurobiology of Depression synthesizes the basic neurobiology of major depressive disorder with discussion of the most recent advances in research, including the interacting pathways implicated in the pathophysiology of MDD, omics technologies, genetic approaches, and the development of novel optogenetic approaches that are changing researchers' perspectives and may revolutionize research into depression. The basic foundational understanding of the neurobiology underlying the disorder, as well as the comprehensive summary of the most recent advances in research, combine to aid advanced students and researchers in their understanding of MDD and change the landscape of the management of depression with the development of novel and fast-acting pharmaceutical and neuromodulatory approaches. Aids readers in understanding major depressive disorder in the context of NIMH Research Domain Criteria (RDoC) recommendations Covers range of existing and potential pharmacologic and non-pharmacologic treatment options, from lifestyle adjustments to antidepressants to novel therapeutics Synthesizes discussion of cellular and molecular mechanisms underlying symptoms with clinical aspects of depression for a thorough understanding of the disorder
Major depressive disorders have recently been associated with impairments in signaling pathways that regulate neuroplasticity and cell survival. Agents designed to directly target molecules in these pathways hold promise as new therapeutics for depression. With the collaboration of the most prestigious international specialists in biochemistry, molecular biology, genomics, psychiatry, psychology, and pharmacology, Neurobiology of Depression discusses the nature of the central nervous system circuits responsible for the modifications of neuronal functioning that lead to depression. The book begins by discussing animal, neurophysiological, and neuropsychological models of depression as well as neural foundations. It explores genetic factors that contribute to depression and describes the effect of monoaminergic systems in the central nervous system. Next, the book profiles the rise of psychopharmacology in the treatment of depression and the research into serotonin and monoamine reuptake inhibitors. It examines the role of the glutamatergic, endocannabinoid, and opioid systems in the pathophysiology of mood disorders, as well as the effect of biological rhythms on the human body. Later chapters review the role of CRF-related ligands, CRF receptors, HPA axis activity, and glucocorticoid receptors in the regulation of the stress response and depression. They also describe cytokine modulation of molecular mechanisms. They examine the role of neuropeptide Y, nitric oxide, beta-arrestins, BDNF, and phosphodiesterases, and discuss the use of tachykinin antagonists in treatment. Finally, they analyze the neurobiological basis for the development of new antidepressant agents. Exploring myriad aspects of a disease that plagues a large percentage of the population worldwide, this volume captures the state of the science of this debilitating disorder, facilitating further research and discovery.
In the years following publication of the DSM-5(R), the field of psychiatry has seen vigorous debate between the DSM's more traditional, diagnosis-oriented approach and the NIMH's more biological, dimension-based RDoC (research domain criteria) approach. Charney & Nestler's Neurobiology of Mental Illness is an authoritative foundation for translating information from the laboratory to clinical treatment, and its fifth edition extends beyond this reference function to acknowledge and examine the controversies, different camps, and thoughts on the future of psychiatric diagnosis. In this wider context, this book provides information from numerous levels of analysis, including molecular biology and genetics, cellular physiology, neuroanatomy, neuropharmacology, epidemiology, and behavior. Sections and chapters are edited and authored by experts at the top of their fields. No other book distills the basic science and underpinnings of mental disorders-and highlights practical clinical significance-to the scope and breadth of this classic text. In this edition, Section 1, which reviews the methods used to examine the biological basis of mental illness in animal and cell models and in humans, has been expanded to reflect critically important technical advances in complex genetics (including powerful sequencing technologies and related bioinformatics), epigenetics, stem cell biology, optogenetics, neural circuit functioning, cognitive neuroscience, and brain imaging. This range of established and emerging methodologies offer groundbreaking advances in our ability to study the brain as well as unique opportunities for the translation of preclinical and clinical research into badly needed breakthroughs in our therapeutic toolkit. Sections 2 through 7 cover the neurobiology and genetics of major psychiatric disorders: psychoses (including bipolar disorder), mood disorders, anxiety disorders, substance use disorders, dementias, and disorders of childhood onset. Also covered within these sections is a summary of current therapeutic approaches for these illnesses as well as the ways in which research advances are now guiding the search for new treatments. Each of these parts has been augmented in several different areas as a reflection of research progress. The last section, Section 8, reconfigured in this new edition, now focuses on diagnostic schemes for mental illness. This includes an overview of the unique challenges that remain in diagnosing these disorders given our still limited knowledge of disease etiology and pathophysiology. The section then provides reviews of DSM-5(R), which forms the basis of psychiatric diagnosis in the United States for all clinical work, and of RDoC, which provides an alternative perspective on diagnosis in heavy use in the research community. Also included are chapters on future efforts toward precision and computational psychiatry, which promise to someday align diagnosis with underlying biological abnormalities.
'The Orbitofrontal Cortex' explores a part of the brain that is important in human emotion, pleasure, decision-making, valuation, and personality. The book is unique in providing a coherent multidisciplinary approach to understanding the functions of one of the most interesting regions of the human brain, in both health and in disease.
Providing a cutting-edge examination of the mechanisms underlying depression, this volume integrates important areas of research that have largely remained separate. The authors explore both the cognitive and neurological processes that make some people more vulnerable than others to developing depression and experiencing recurrent episodes. They also probe how these processes interact—how negative life experiences, maladaptive belief systems, and patterns of thinking may actually affect neural circuitry, and vice versa. Explaining sophisticated theory and research in an accessible style, the book highlights the implications for improving clinical practices and patient outcomes.