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Neurosciences --- Neurosciences --- Neurosciences --- History. --- Exhibitions. --- Histoire
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Neurosciences --- Neurology --- Ethics, Medical
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Cardiology --- Nephrology --- Neurosciences
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Cognition --- Neurobiology --- Neurosciences --- Psychology --- Cognition. --- Neurobiology. --- physiology.
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The development of neurophysiology, the study of the activity of living nervous tissue, has relied heavily on the techniques of electrophysiology. This emphasis is revealed in volumes 14 and 15 of this series, which show how electrophysiological techniques can be applied to research topics ranging from ion channels to human behavior. Kitai and Park show how cellular neurophysiology can be related to classical neuroanatomy, an important basis for any type of functional analysis. Wonderlin, French, Arispe, and Jones describe new (single channel) and more traditional (whole cell) techniques for studying the role of ion channels in cellular pr- esses, a field that is currently developing very rapidly. An exciting nontraditional approach to the study of cellular electrophysiology is discussed by Hopp, Wu, Xiao, Rioult, London, Zecevic, and Cohen in their paper on optic measurement of membrane pot- tials. Humphrey and Schmidt offer a thoughtful review of the uses and limitations of the technique of recording extracellular unit potentials in the brain. Hoffer presents an introduction to a field that is of great interest but is technically very difficult-the reco- ing from cells and axons in the spinal cord and peripheral nervous system in freely moving animals. An electrophysiological approach to the analysis of the neural mechanisms of normal behavior is presented by Halgren in a wide-ranging review of the field of evoked potentials in humans.
Neurosciences. --- Neural sciences --- Neurological sciences --- Neuroscience --- Medical sciences --- Nervous system
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It goes without saying that the principles and techniques of molecular biology are having and will continue to have a major impact on investigations into nervous system structure and func tion. It is becoming increasingly apparent to neuroscientists in all subdisciplines that a working knowledge of the language, approaches, and techniques of molecular biology is indispensable for their work. For these reasons, the editors have decided to devote this volume of Neuromethods to the techniques of molecular biology and their application to neural systems. There currently exist a number of excellent reference technical manuals that de scribe molecular neurobiological techniques in great detail, and many of these are cited within the chapters included in this volume. It was not the intention of the editors or authors of this volume to duplicate these efforts. Rather, our intention was to present to the neuroscientist who is relatively unfamiliar with these methodologies an understanding of how specific techniques are used to approach major molecular neurobiological problems as well as a set of techniques that work in the laboratories of the individuals writing the chapters. In some cases, there are duplica tions of techniques these have been retained to illustrate the range of variability of the technique and/or the flexibility of the method to study different types of problems. We hope that the chapters will provide the reader with an understanding of the methods and their applicability to neurobiological problems; and, perhaps, suggest new directions for the reader's research efforts. Anthony T.
Neurosciences. --- Neural sciences --- Neurological sciences --- Neuroscience --- Medical sciences --- Nervous system
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The development of neurophysiology, the study of the activity of living nervous tissue, has relied heavily on the techniques of electrophysiology. This emphasis is revealed in volumes 14 and 15 of this series, which show how electrophysiological techniques can be applied to research topics ranging from ion channels to human behavior. Kitai and Park show how cellular neurophysiology can be related to classical neuroanatomy, an important basis for any type of functional analysis. Wonderlin, French, Arispe, and Jones describe new (single channel) and more traditional (whole cell) techniques for studying the role of ion channels in cellular pr- esses, a field that is currently developing very rapidly. An exciting nontraditional approach to the study of cellular electrophysiology is discussed by Hopp, Wu, Xiao, Rioult, London, Zecevic, and Cohen in their paper on optic measurement of membrane pot- tials. Humphrey and Schmidt offer a thoughtful review of the uses and limitations of the technique of recording extracellular unit potentials in the brain. Hoffer presents an introduction to a field that is of great interest but is technically very difficult-the reco- ing from cells and axons in the spinal cord and peripheral nervous system in freely moving animals. An electrophysiological approach to the analysis of the neural mechanisms of normal behavior is presented by Halgren in a wide-ranging review of the field of evoked potentials in humans.
Physiology of nerves and sense organs --- Neurophysiology --- Electrophysiology --- Research --- Methodology. --- Animal electricity --- Bioelectricity --- Electricity, Animal --- Electrobiology --- Nervous system --- Physiology --- Neurology --- Electricity --- Neurobiology --- Physiological effect --- Neurosciences. --- Neural sciences --- Neurological sciences --- Neuroscience --- Medical sciences
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