Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product. This popular primer provides a solid understanding of the nervous system, neurologic disorders, and treatments with drugs and other substances Nestler, Hyman, and Malenka’s Molecular Neuropharmacology, Fourth Edition covers everything you need to know about molecular neuroscience. This meticulously detailed guide provides a deep dive into the pathophysiology of neurologic and psychiatric disorders by describing neuropharmacological fundamentals of the nervous system. Packed with tables, diagrams, and figures making the intricacies of neurochemistry easy to understand, it builds a solid understanding of major disease mechanisms by reviewing the effects of drug actions (organized by drug category), and it explains the neuropharmacology of specific neural and psychiatric disorders. Concise overviews of the effects of drugs and neurologically active substances appear before the descriptions of the minute details that lead to these effects—a format designed to boost understanding and knowledge retention of critical concepts.
* The most up-to-date and comprehensive coverage of the relationship of brain function and neuroactive chemicals * Authors are world-known leaders in the field * Molecular Neuropharmacology is the hot topic in medicine
This is a new edition of the first comprehensive text to show how the advances in molecular and cellular biology and in the basic neurosciences have brought the revolution in molecular medicine to the field of psychiatry. The book begins with a review of basic neuroscience and methods for studying neurobiology in human patients then proceeds to discussions of all major psychiatric syndromes with respect to knowledge of their etiology, pathophysiology, and treatment. Emphasis is placed on synthesizing information across numerous levels of analysis, including molecular biology and genetics, cellular physiology, neuroanatomy, neuropharmacology, and behavior, and in translating information from the basic laboratory to the clinical laboratory and finally to clinical treatment. Editors Dennis Charney and Eric Nestle, along with their six section editors and over 150 contributors, have revised and updated all 80 chapters from the previous edition and have added new chapters on topics relating to, for example, genetics, experimental therapeutics, and late-life mood disorders. Both a textbook and a reference book, Neurobiology of Mental Illness is intended for psychiatrists, neuroscientists, and upper level students.
The new edition of this definitive textbook reflects the continuing reintegration of psychiatry into the mainstream of biomedical science. The research tools that are transforming other branches of medicine - epidemiology, genetics, molecular biology, imaging, and medicinal chemistry - are also transforming psychiatry. The field stands poised to make dramatic advances in defining disease pathogenesis, developing diagnostic methods capable of identifying specific and valid disease entities, discovering novel and more effective treatments, and ultimately preventing psychiatric disorders. The Neurobiology of Mental Illness is written by world-renowned experts in basic neuroscience and the pathophysiology and treatment of psychiatric disorders. It begins with a succint overview of the basic neurosciences followed by and evaluation of the tools that are available for the study of mental disorders in humans. The core of the book is a series of consistently organized sections on the major psychiatric disorders that cover their diagnostic classification, molecular genetics, functional neuroanatomy, neurochemistry and pharmacology, neuroimaging, and principles of pharmacotherapy. Chapters are written in a clear style that is easily accessible to practicing psychiatrists, and yet they are detailed enough to interest researchers and academics. For this second edition, every section has been thoroughly updated, and 13 new chapters have been added in areas where significant advances have been made, including functional genomics and animal models of illness; epidemiology; cognitive neuroscience; postmortem investigation of human brain; drug discovery methods for psychiatric disorders; the neurobiology of schizophrenia; animal models of anxiety disorders; neuroimaging studies of anxiety disorders; developmental neurobiology and childhood onset of psychiatric disorders; the neurobiology of mental retardation; the interface between neurological and psychiatric disorders; the neurobiology of circadian rhythms; and the neurobiology of sleep disorders. Both as a textbook and a reference work, Neurobiology of Mental Illness represents a uniquely valuable resource for psychiatrists, neuroscientists, and their students or trainees.
A Nobel Prize–winning neuroscientist’s probing investigation of what brain disorders can tell us about human nature Eric R. Kandel, the winner of the Nobel Prize in Physiology or Medicine for his foundational research into memory storage in the brain, is one of the pioneers of modern brain science. His work continues to shape our understanding of how learning and memory work and to break down age-old barriers between the sciences and the arts. In his seminal new book, The Disordered Mind, Kandel draws on a lifetime of pathbreaking research and the work of many other leading neuroscientists to take us on an unusual tour of the brain. He confronts one of the most difficult questions we face: How does our mind, our individual sense of self, emerge from the physical matter of the brain? The brain’s 86 billion neurons communicate with one another through very precise connections. But sometimes those connections are disrupted. The brain processes that give rise to our mind can become disordered, resulting in diseases such as autism, depression, schizophrenia, Parkinson’s, addiction, and post-traumatic stress disorder. While these disruptions bring great suffering, they can also reveal the mysteries of how the brain produces our most fundamental experiences and capabilities—the very nature of what it means to be human. Studies of autism illuminate the neurological foundations of our social instincts; research into depression offers important insights on emotions and the integrity of the self; and paradigm-shifting work on addiction has led to a new understanding of the relationship between pleasure and willpower. By studying disruptions to typical brain functioning and exploring their potential treatments, we will deepen our understanding of thought, feeling, behavior, memory, and creativity. Only then can we grapple with the big question of how billions of neurons generate consciousness itself.
This text offers a comprehensive introduction to molecular biology, genetics, and neurobiology relevant to psychiatry. Generously illustrated chapters are organized to be read at both an introductory and a more advanced level. Both beginners and advanced professionals will benefit from this text's discussion of how psychotropic drugs work and how gene-environment interactions may contribute to the pathogenesis of psychiatric disorders. The authors demonstrate how molecular investigations in psychiatry will revolutionize the field by leading to improved diagnostic testing, to new and more effective treatments, and ultimately to the development of preventive measures for mental illness.
GAIN A COMPLETE UNDERSTANDING OF NERVOUS SYSTEM FUNCTION AND ITS RELATIONSHIP TO HUMAN NEUROLOGIC DISORDERS Molecular Neuropharmacology first reviews the fundamental biochemistry of the functioning nervous system and then describes how nerve cells communicate with one another through numerous types of neurotransmitters involving amino acids, monoamines, neuropeptides, and neurotrophic factors, among several others. The neuropharmacology and neural circuits that underlie complex behaviors as well as major neural disorders are also discussed as are the drugs used to treat those conditions. In the final section, the authors use the concepts presented in the first two sections to explain how irregularities in the biochemistry of neuronal interactions can lead to a wide array of clinical manifestations. FEATURES NEW chapter on neuroinflammation All chemical structure illustrations have been redrawn and improved Fully updated to reflect the latest breakthroughs and new drugs The most well-written and easily understood work on the subject More than 300 full-color illustrations!
* The most up-to-date and comprehensive coverage of the relationship of brain function and neuroactive chemicals * Authors are world-known leaders in the field * Molecular Neuropharmacology is the hot topic in medicine
Turn to the classic primer of Molecular Neuroscience for a complete understanding of nervous system function and its relationship to human neurologic disorders A Doody's Core Title for 2011! 4 STAR DOODY'S REVIEW! "This is an outstanding new introductory textbook on neuropharmacology and its implications for cognitive neuroscience. Anyone who wants to keep abreast of this rapidly emerging science needs to learn the fundamentals which this book would help facilitate. I highly recommend it."--Doody's Review Service Molecular Neuropharmacology offers a clear, thorough explanation of the molecular functioning of the nervous system in normal and disease states. More than three hundred concept-clarifying full-color illustrations along with didactic text boxes provide an in-depth understanding of nerve cell receptors, their effectors and second messenger targets, and the molecular genetics that are often impacted by these systems. You will also learn how malfunction of these molecular systems relates to human disease and the corresponding medical treatment. Molecular Neuropharmacology is the most relevant, well-written resource available to help you make the connection between neuropharmacology and clinical neuroscience. Numerous figures and didactic boxes help you understand and remember complex subject matter for efficient, on-the-spot review. The book's all-inclusive, high-yield coverage includes: The fundamentals of neuropharmacology Neural substrates of drug action The neuropharmacology of specific functions and disorders--encompassing control of movement, mood and emotion, memory and dementia, and other vital areas NEW! A streamlined redesign that makes the book even more practical and accessible than ever NEW! More illustrations--all 300 now in full color!
GAIN A COMPLETE UNDERSTANDING OF NERVOUS SYSTEM FUNCTION AND ITS RELATIONSHIP TO HUMAN NEUROLOGIC DISORDERS Molecular Neuropharmacology first reviews the fundamental biochemistry of the functioning nervous system and then describes how nerve cells communicate with one another through numerous types of neurotransmitters involving amino acids, monoamines, neuropeptides, and neurotrophic factors, among several others. The neuropharmacology and neural circuits that underlie complex behaviors as well as major neural disorders are also discussed as are the drugs used to treat those conditions. In the final section, the authors use the concepts presented in the first two sections to explainhow irregularities in the biochemistry of neuronal interactions can lead to a wide array of clinical manifestations. FEATURES NEW chapter on neuroinflammation All chemical structure illustrations have been redrawn and improved Fully updated to reflect the latest breakthroughs and new drugs The most well-written and easily understood work on the subject More than 300 full-color illustrations!
* The most up-to-date and comprehensive coverage of the relationship of brain function and neuroactive chemicals * Authors are world-known leaders in the field * Molecular Neuropharmacology is the hot topic in medicine
The gold standard of neuroscience texts―updated with hundreds of brand-new images and fully revised content in every chapter Doody's Core Titles for 2023! For more than 40 years, Principles of Neural Science has helped readers understand the link between the human brain and behavior. As the renowned text has shown, all behavior is an expression of neural activity and the future of both clinical neurology and psychiatry is dependent on the progress of neural science. Fully updated, this sixth edition of the landmark reference reflects the latest research, clinical perspectives, and advances in the field. It offers an unparalleled perspective on the the current state and future of neural science. This new edition features: Unmatched coverage of how the nerves, brain, and mind function NEW chapters on: - The Computational Bases of Neural Circuits that Mediate Behavior - Brain-Machine Interfaces - Decision-Making and Consciousness NEW section on the neuroscientific principles underlying the disorders of the nervous system Expanded coverage of the different forms of human memory Highly detailed chapters on stroke, Parkinson’s disease, and multiple sclerosis 2,200 images, including 300 new color illustrations, diagrams, radiology studies, and PET scans Principles of Neural Science, Sixth Edition benefits from a cohesive organization, beginning with an insightful overview of the interrelationships between the brain, nervous system, genes, and behavior. The text is divided into nine sections: Part I: Overall Perspective provides an overview of the broad themes of neural science, including the basic anatomical organization of the nervous system and the genetic bases of nervous system function and behavior. Part II: Cell and Molecular Biology of Cells of the Nervous System examines the basic properties of nerve cells, including the generation and conduction of propagated signaling. Part III: Synaptic Transmission focuses on the electrophysiological and molecular mechanism of synaptic transmission with chapters on neuronal excitability, neurotransmitters, and transmitter release. Part IV: Perception discusses the various aspects of sensory perception, including how information from the primary organs of sensation is transmitted to and processed by the central nervous system. Part V: Movement considers the neural mechanisms underlying movement and examines a new treatment that addresses how the basal ganglia regulate the selection of motor actions and instantiate reinforcement learning. Part VI: The Biology of Emotion, Motivation and Homeostasis examines the neural mechanisms by which subcortical areas mediate homeostatic control mechanisms, emotions, and motivation. Part VII: Development and the Emergence of Behavior looks at the nervous system from early embryonic differentiation to the formation and elimination of synapses. Part VIII: Learning, Memory, Language and Cognition expands on the previous section, examining the cellular mechanisms of implicit and explicit memory storage, as well as decision-making and consciousness. Part IX: explores the neural mechanisms underlying diseases and disorders of the nervous system, including autism spectrum disorder, epilepsy, schizophrenia, and anxiety.
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