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Inhibitory glycine receptors (GlyRs) containing the alpha1 and beta subunits are well known for their involvement in an inherited motor disorder (hyperekplexia) characterised by neonatal hypertonia and an exaggerated startle reflex. However, it has recently emerged that other GlyR subtypes (e.g. those containing the alpha2, alpha3 and alpha4 subunits) may play more diverse biological roles. New animal models of glycinergic dysfunction have been reported in zebrafish (bandoneon, shocked), mice (cincinatti, Nmf11) and cows (CMD2). In addition, key studies on neurotransmitter transporters for glycine (GlyT1, GlyT2, VIAAT) have also revealed key roles for these presynaptic and glial proteins in health and disease. Molecular modelling and structure/function studies have also provided key insights into allosteric signal transduction mechanisms and the diverse pharmacology of glycine receptors. This Research Topic aims to bring together experts in the field of glycinergic transmission, and invite research articles or topical reviews to provide an up-to-date perspective on the insights into receptor, transporter and synaptic function that can be gained by the study of glycinergic transmission.
This book offers a comprehensive overview of the most important neurochemicals and approaches everything from the neurochemical’s perspective. It attempts to integrate the biochemical pathways of synthesis and metabolism of these neurochemicals with the disease states and point out the avenues of diagnostic testing and therapeutic intervention. Each chapter focuses on a specific neurochemical and provides a brief history, the biochemical profile, metabolism, physiological functions, and the clinical aspects. The clinical part of each chapter includes a discussion on disease states with either increased or reduced activity of the neurochemical and either activation or inhibition of the relevant receptors. This book is targeted toward practitioners and students of neuroscience and is written to emphasize the importance of these neurochemicals in the brain. With this emphasis on background neurochemical processes, the readers will be pointed towards logical diagnostic studies, laboratory investigations, and therapies based on the neurochemical dysfunction that underlies various disease states.
VETERINARY ANESTHESIA AND ANALGESIA A thoroughly updated new edition of the foundational reference on veterinary anesthesia and analgesia Veterinary Anesthesia and Analgesia: The Sixth Edition of Lumb and Jones is a fully updated revision to this comprehensive, authoritative reference to all aspects of veterinary anesthesia and pain management. Encompassing both scientific principles and clinical applications, the new edition adds new knowledge, techniques, and discussion of emerging issues throughout. Fourteen new chapters significantly expand the coverage of patient monitoring modalities and nociception and pain, while presenting new information on safety culture, infection prevention and control, biomedical engineering, and point-of-care ultrasound. Logically organized into sections, information on basic principles, pharmacology, specific body systems, and specific species is easy to access. Comparative anesthetic considerations for dogs and cats, horses, ruminants, swine, laboratory animals, free-ranging terrestrial mammals, marine mammals, reptiles, amphibians, fish, and birds are discussed. Chapters are devoted to anesthesia and pain management of common domestic species and patient populations, including updated chapters on local and regional anesthetic and analgesic techniques. A companion website offers video clips of point-of-care ultrasound techniques and pain assessment and scoring. Readers of Veterinary Anesthesia and Analgesia: The Sixth Edition of Lumb and Jones will also find: Significantly expanded coverage of patient monitoring, including new chapters devoted to anesthetic depth and electroencephalography, electrocardiography, blood pressure, ventilation, oxygenation, and anesthetic gas monitoring. More in-depth coverage of respiratory physiology and pathophysiology, with new sections covering oxygen therapy, mechanical ventilation, anesthetic management considerations for bronchoscopy, intrathoracic procedures, including one-lung ventilation, and patients with respiratory disease. Expanded coverage of pain physiology and pathophysiology, recognition and quantification of pain, and clinical pain management, including both pharmacologic and nonpharmacologic modalities. A companion website incorporating video clips and example pain scoring sheets to complement the more than 500 images in the text itself. With its unparalleled multidisciplinary approach, Veterinary Anesthesia and Analgesia is a must-own volume for veterinary anesthesia specialists and researchers; specialists in other disciplines, including both small and large animal surgeons; practitioners; and students.
The hippocampus mediates several higher brain functions, such as learning, memory, and spatial coding. The input region of the hippocampus, the dentate gyrus, plays a critical role in these processes. Several lines of evidence suggest that the dentate gyrus acts as a preprocessor of incoming information, preparing it for subsequent processing in CA3. For example, the dentate gyrus converts input from the entorhinal cortex, where cells have multiple spatial fields, into the spatially more specific place cell activity characteristic of the CA3 region. Furthermore, the dentate gyrus is involved in pattern separation, transforming relatively similar input patterns into substantially different output patterns. Finally, the dentate gyrus produces a very sparse coding scheme in which only a very small fraction of neurons are active at any one time. How are these unique functions implemented at the level of cells and synapses? Dentate gyrus granule cells receive excitatory neuron input from the entorhinal cortex and send excitatory output to the hippocampal CA3 region via the mossy fibers. Furthermore, several types of GABAergic interneurons are present in this region, providing inhibitory control over granule cell activity via feedback and feedforward inhibition. Additionally, hilar mossy cells mediate an excitatory loop, receiving powerful input from a small number of granule cells and providing highly distributed excitatory output to a large number of granule cells. Finally, the dentate gyrus is one of the few brain regions exhibiting adult neurogenesis. Thus, new neurons are generated and functionally integrated throughout life. How these specific cellular and synaptic properties contribute to higher brain functions remains unclear. One way to understand these properties of the dentate gyrus is to try to integrate experimental data into models, following the famous Hopfield quote: “Build it, and you understand it.” However, when trying this, one faces two major challenges. First, hard quantitative data about cellular properties, structural connectivity, and functional properties of synapses are lacking. Second, the number of individual neurons and synapses to be represented in the model is huge. For example, the dentate gyrus contains ~1 million granule cells in rodents, and ~10 million in humans. Thus, full scale models will be complex and computationally demanding. In this Frontiers Research Topic, we collect important information about cells, synapses, and microcircuit elements of the dentate gyrus. We have put together a combination of original research articles, review articles, and a methods article. We hope that the collected information will be useful for both experimentalists and modelers. We also hope that the papers will be interesting beyond the small world of “dentology,” i.e., for scientists working on other brain areas. Ideally, the dentate gyrus may serve as a blueprint, helping neuroscientists to define strategies to analyze network organization of other brain regions.
Apply the latest scientific and clinical advances with Wall & Melzack's Textbook of Pain, 6th Edition. Drs. Stephen McMahon, Martin Koltzenburg, Irene Tracey, and Dennis C. Turk, along with more than 125 other leading authorities, present all of the latest knowledge about the genetics, neurophysiology, psychology, and assessment of every type of pain syndrome. They also provide practical guidance on the full range of today's pharmacologic, interventional, electrostimulative, physiotherapeutic, and psychological management options. Consult this title on your favorite e-reader with intuitive search tools and adjustable font sizes. Elsevier eBooks provide instant portable access to your entire library, no matter what device you're using or where you're located. Benefit from the international, multidisciplinary knowledge and experience of a "who's who" of international authorities in pain medicine, neurology, neurosurgery, neuroscience, psychiatry, psychology, physical medicine and rehabilitation, palliative medicine, and other relevant fields. Translate scientific findings into clinical practice with updates on the genetics of pain, new pharmacologic and treatment information, and much more. Easily visualize important scientific concepts with a high-quality illustration program, now in full color throughout. Choose the safest and most effective management methods with expanded coverage of anesthetic techniques. Stay abreast of the latest global developments regarding opioid induced hyperalgesia, addiction and substance abuse, neuromodulation and pain management, identification of specific targets for molecular pain, and other hot topics.
Fast inhibitory transmission exerts a powerful control on neuronal excitability and network oscillations thought to be associated with high cognitive functions. An alteration of inhibitory signaling is associated with major neurological and psychiatric disorders including epilepsy. Once released from presynaptic nerve terminals, GABA and glycine cross the synaptic cleft and bind to postsynaptic receptors localized in precise apposition to presynaptic release sites. The functional organization of inhibitory synapses consists in a dynamic process which relies on a number of highly specialized proteins that ensure the correct targeting, clustering, stabilization and subsequent fate of synaptic receptors. Among the proteins involved in this task, the tubulin-binding protein gephyrin plays a crucial role. Through its self-oligomerization properties, this protein forms hexagonal lattices that trap GABAA and glycine receptors and link them to the cytoskeleton. By directly interacting with cell-adhesion molecules of the neuroligin-neurexin families that connect presynaptic and postsynaptic neurons at synapses, gephyrin ensures a backward control of presynaptic signaling. In addition, changes in clusters size is dynamically regulated by lateral diffusion of neurotransmitter receptors between the synaptic and extrasynaptic compartments and by their interaction with synaptic scaffold proteins. The aim of this Research Topic (research articles and reviews) is to bring together experts on the cellular and molecular mechanisms regulating the appropriate assembly, location and function of pre and postsynaptic specializations at inhibitory synapses. A particular emphasis will be on the role of receptor trafficking in synaptic stabilization and plasticity.
The importance of chloride ions in cell physiology has not been fully recognized until recently, in spite of the fact that chloride (Cl-), together with bicarbonate, is the most abundant free anion in animal cells, and performs or determines fundamental biological functions in all tissues. For many years it was thought that Cl- was distributed in thermodynamic equilibrium across the plasma membrane of most cells. Research carried out during the last couple of decades has led to a dramatic change in this simplistic view. We now know that most animal cells, neurons included, exhibit a non-equilibrium distribution of Cl- across their plasma membranes. Over the last 10 to 15 years, with the growth of molecular biology and the advent of new optical methods, an enormous amount of exciting new information has become available on the molecular structure and function of Cl- channels and carriers. In nerve cells, Cl- channels and carriers play key functional roles in GABA- and glycine-mediated synaptic inhibition, neuronal growth and development, extracellular potassium scavenging, sensory-transduction, neurotransmitter uptake and cell volume control. Disruption of Cl- homeostasis in neurons underlies pathological conditions such as epilepsy, deafness, imbalance, brain edema and ischemia, pain and neurogenic inflammation. This book is about how chloride ions are regulated and how they cross the plasma membrane of neurons. It spans from molecular structure and function of carriers and channels involved in Cl- transport to their role in various diseases. The first comprehensive book on the structure, molecular biology, cell physiology, and role in diseases of chloride transporters / channels in the nervous system in almost 20 years Chloride is the most abundant free anion in animal cells. THis book summarizes and integrates for the first time the important research of the past two decades that has shown that Cl- channels and carriers play key functional roles in GABA- and glycine-mediated synaptic inhibition, neuronal growth and development, extracellular potassium scavenging, sensory-transduction, neurotransmitter uptake and cell volume control The first book that systematically discusses the result of disruption of Cl- homeostasis in neurons which underlies pathological conditions such as epilepsy, deafness, imbalance, brain edema and ischemia, pain and neurogenic inflammation Spanning topics from molecular structure and function of carriers and channels involved in Cl- transport to their role in various diseases Involves all of the leading researchers in the field Includes an extensive introductory section that covers basic thermodynamic and kinetics aspects of Cl- transport, as well as current methods for studying Cl- regulation, spanning from fluorescent dyes in single cells to knock-out models to make the book available for a growing population of graduate students and postdocs entering the field
Vols. for 1963- include as pt. 2 of the Jan. issue: Medical subject headings.
The text ranges from drugs that affect the mood and behavior to hypnotics, narcotics, anticonvulsants, and analgesics, as well as a variety of drugs that affect the autonomic nervous system and psychoactive drugs used for non-medical reasons - nicotine, alcohol, opiates, psychostimulants and cannabis."--BOOK JACKET.