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The second volume of the Biomedical translational research discusses advancements in biomedical research for understanding the pathophysiology of various diseases towards improving diagnosis and treatment. It presents the integration of molecular-based technologies, clinical genomics, and medical informatics to improve diagnostic and treatment strategies. Further, the book reviews molecular genomics approaches for diagnosis and managing tuberculosis. It also covers the innovative strategies for cancer treatment through targeting metabolic pathways, tumor microenvironment, cancer stem cells, and immune cells. It also illuminates novel strategies for heart failure diagnosis and therapeutic approaches for the treatment of heart failure. It discusses improvements in translational research for discovery of new diagnostic tests, identifying novel biomarkers and drugable targets, and predicting optimal treatments based on understanding the underlying molecular basis of the disease. Lastly, it reviews the preclinical models of restenosis and their application and limitation in the evaluation of device-based interventional technologies for the treatment of coronary artery diseases.
This volume is intended for neuropharmacologists, psychopharmacologists, pharmacologists, pharmacists, sleep researchers, translational neuroscience researchers, and other basic researchers and clinical scientists interested in an interdisciplinary approach to sleep medicine. The level of the book is aiming at CNS researchers, drug development scientists, basic and clinical sleep researchers, as well as senior medical students and fellows in psychiatry and neurology. Orexin and Sleep provides a unique resource, giving a comprehensive and highly readable summary of the basic concepts in orexin biology and pharmacology along with clinical applications in sleep medicine in general, and narcolepsy in particular.
With over 300 training programs in neuroscience currently in existence, demand is great for a comprehensive textbook that both introduces graduate students to the full range of neuroscience, from molecular biology to clinical science, but also assists instructors in offering an in-depth course in neuroscience to advanced undergraduates.The second edition of Fundamental Neuroscience accomplishes all this and more. The thoroughly revised text features over 25% new material including completely new chapters, illustrations, and a CD-ROM containing all the figures from the text. More concise and manageable than the previous edition, this book has been retooled to better serve its audience in the neuroscience and medical communities.Key Features* Logically organized into 7 sections, with uniform editing of the content for a "one-voice" feel throughout all 54 chapters* Includes numerous text boxes with concise, detailed descriptions of specific experiments, disorders, methodological approaches, and concepts* Well-illustrated with over 850 full color figures, also included on the accompanying CD-ROM
Thoroughly updated and completely reorganized for a sharper clinical focus, the Fifth Edition of this world-renowned classic synthesizes the latest advances in basic neurobiology, biological psychiatry, and clinical neuropsychopharmacology. The book establishes a critical bridge connecting new discoveries in molecular and cellular biology, genetics, and neuroimaging with the etiology, diagnosis, and treatment of all neuropsychiatric disorders. Nine sections focus on specific groups of disorders, covering clinical course, genetics, neurobiology, neuroimaging, and current and emerging therapeutics. Four sections cover neurotransmitter and signal transduction, emerging methods in molecular biology and genetics, emerging imaging technologies and their psychiatric applications, and drug discovery and evaluation. Compatibility: BlackBerry(R) OS 4.1 or Higher / iPhone/iPod Touch 2.0 or Higher /Palm OS 3.5 or higher / Palm Pre Classic / Symbian S60, 3rd edition (Nokia) / Windows Mobile(TM) Pocket PC (all versions) / Windows Mobile Smartphone / Windows 98SE/2000/ME/XP/Vista/Tablet PC
Pharmacological approaches to our understanding of sleep have been at the forefront of sleep research for many years. Traditional techniques have included the use of pharmacological agonists and antagonists, as well as transmitter-specific lesions. These have been enhanced by the introduction of molecular genetics and the use of transgenes and targeted gene deletion. Neurochemistry of Sleep and Wakefulness is an exceptional, single source of information on the role of the major mammalian neurotransmitter systems involved in the regulation of sleep and waking. With contributions from internationally recognized experts, this book clearly describes how researchers have made use of the myriad techniques in their armamentarium to characterize the role of a given neurotransmitter in the regulation of sleep and waking. Suitable for experimental and clinical pharmacologists, the book will have wider appeal to sleep researchers, psychiatrists and any professional interested in the interdisciplinary areas of neurobiology and pharmacology.
GABA (gamma-aminobutyric acid) is the main neurotransmitter regulating sleep. The majority of drugs presently in use for the treatment of sleep disorders act by enhancing GABAergic neuronal inhibition. The GABA system is, therefore, of prime clinical relevance for the therapy of insomnia. The focus of this volume is on the neuropsychopharmacology and the clinical impact of the GABA system in regulating sleep and wakefulness. It presents molecular, neuropharmacological, systems-biological and clinical approaches to the understanding of the mechanism of action of GABA and GABAergic drugs. It also explores the role of GABA in the basic drives that affect sleep, and the influences that adapt sleep and wakefulness to external events.
How and why does the sleeping brain generate dreams? Though the question is old, a paradigm shift is now occurring in the science of sleep and dreaming that is making room for new answers. From brainstem-based models of sleep cycle control, research is moving toward combined brainstem/forebrain models of sleep cognition itself. The book presents five papers by leading scientists at the center of the current firmament, and more than seventy-five commentaries on those papers by nearly all of the other leading authorities in the field. Topics include mechanisms of dreaming and REM sleep, memory consolidation in REM sleep, and an evolutionary hypothesis of the function of dreaming. The papers and commentaries, together with the authors' rejoinders, represent a huge leap forward in our understanding of the sleeping and dreaming brain. The book's multidisciplinary perspective will appeal to students and researchers in neuroscience, cognitive science, and psychology.
Analyzing ground-breaking research, this reference highlights the impact of sleep deprivation on the well-being of the individual and society-presenting current theories on the function of sleep, the effects of sleep deprivation on patients with medical and psychiatric conditions, as well as providing interpretative and methodological results in co
Many recent discoveries in both laboratory and clinical settings have greatly increased our understanding of sleep medicine and the relevant psychopharmacology. This timely book serves to present updated information about the neuropsychopharmacology of sleep as this field enters mainstream psychiatry, neurology and medicine This volume has assembled articles that summarize and review carefully, a chosen selection of the latest discoveries concerning sleep medicine, sleep physiology and sleep pharmacology. Outstanding contributions have been sought from acknowledged experts in their respective fields. The goal of the volume is to present the more recent developments and advances in the fields...
Sleep Disorders Part 1 offers a glimpse of developments that focus on diagnostic techniques in the field of neurobiology of sleep. This part discusses the models of the rapid eye movement (REM) sleep mechanism; issues regarding sleep states, stages, and memory consolidation; and advances in the understanding of the sleep-wake genes, gene products, the circadian clock, and the role of sleep duration. This book explains noninvasive neuroimaging studies, particularly positron emission tomographic and single photon emission computed tomographic scans. It further discusses advances in clinical science, including concepts about neurobiology of sleep, narcolepsy-cataplexy, therapy, and laboratory t...