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Basic Electrophysiological Methods provides a concise and easy-to-read guide on a selection of the most important contemporary electrophysiological techniques, their implementation, applications, and ways in which they can be combined and integrated with neuroscientific techniques. Intended for students, postdocs, and faculty with a basic neuroscience background, this text will not obscure the relevant technical details with textbook neuroscience tutorials as many other books do. Instead, each chapter provides a conscientious overview of the underlying theory -- a comprehensive description of equipment, materials, methods, data management, and analysis -- a troubleshooting guide, and a list of frequently asked questions. No book or online resource can function as strictly a DIY set of instructions on how to implement a complex technique. However, this book provides a fundamental and accessible set of information intended to form a foundation prior to, during, and after hands-on experience and training, greatly facilitating the initial learning process and subsequent fine-tuning of technical details.
Introduction to Electrophysiological Methods and Instrumentation, Second Edition covers all topics of interest to electrophysiologists, neuroscientists and neurophysiologists, from the reliable penetration of cells and the behavior and function of the equipment, to the mathematical tools available for analyzing data. It discusses the pros and cons of techniques and methods used in electrophysiology and how to avoid pitfalls. Although the basics of electrophysiological techniques remain the principal purpose of this second edition, it now integrates several current developments, including, amongst others, automated recording for high throughput screening and multimodal recordings to correlate electrical activity with other physiological parameters collected by optical means. This book provides the electrophysiologist with the tools needed to understand his or her equipment and how to acquire and analyze low-voltage biological signals. - Introduces possibilities and solutions, along with the problems, pitfalls, and artefacts of equipment and electrodes - Discusses the particulars of recording from brain tissue slices, oocytes and planar bilayers - Describes optical methods pertinent to electrophysiological practice - Presents the fundamentals of signal processing of analogue signals, spike trains and single channel recordings, along with procedures for signal recording and processing - Includes appendices on electrical safety and foundations of useful mathematical tools
Applying neurophysiological methods to the study of brain-behavior relationships proved to be a major advance in the early days of neuroscience research. Considerable technological progress has been made very recently, and the impact on modern neuroscience will be invaluable. In Electrophysiological Recording Techniques, experts in the field present a current view of the widespread application of electrophysiological methods to the study of the brain and to the problem of brain-behavior relationships. The book has been organized to display the range of modern neurophysiological methods ranging from the recordings of single neurons and neuronal ensembles to recordings of field potentials within discrete brain regions and across multiple brain areas. Many of the chapters also address the major challenge of applying the appropriate methods to analyze and interpret neurophysiological recording data. As a volume in the popular Neuromethods series, the chapters provide authoritative reviews of many commonly used approaches in the field today in both the basic research level and in clinical settings. Practical and up-to-date, Electrophysiological Recording Techniques serves as a key reference volume for researchers working in this ever-changing and vital field.
A broad, concise, and no-nonsense guide to contemporary electrophysiological techniques, covering intracellular and extracellular recording through recording of population activity, neuropharmacology, dye imaging, voltammetry, and optogenetics.
This book compiles new findings in plant electrophysiology from the work of internationally renowned experts in the fields of electrophysiology, bio-electrochemistry, biophysics, signal transduction, phloem transport, tropisms, ion channels, plant electrochemistry, and membrane transport. Opening with a historical introduction, the book reviews methods in plant electrophysiology, introducing such topics as measuring membrane potentials and ion fluxes, path-clamp technique, and electrochemical sensors. The coverage includes experimental results and their theoretical interpretation.
Modern neuroscience research is inherently multidisciplinary, with a wide variety of cutting edge new techniques to explore multiple levels of investigation. This Third Edition of Guide to Research Techniques in Neuroscience provides a comprehensive overview of classical and cutting edge methods including their utility, limitations, and how data are presented in the literature. This book can be used as an introduction to neuroscience techniques for anyone new to the field or as a reference for any neuroscientist while reading papers or attending talks. - Nearly 200 updated full-color illustrations to clearly convey the theory and practice of neuroscience methods - Expands on techniques from previous editions and covers many new techniques including in vivo calcium imaging, fiber photometry, RNA-Seq, brain spheroids, CRISPR-Cas9 genome editing, and more - Clear, straightforward explanations of each technique for anyone new to the field - A broad scope of methods, from noninvasive brain imaging in human subjects, to electrophysiology in animal models, to recombinant DNA technology in test tubes, to transfection of neurons in cell culture - Detailed recommendations on where to find protocols and other resources for specific techniques - "Walk-through" boxes that guide readers through experiments step-by-step
Cardiovascular disease is the major cause of mortality and morbidity in the Western Hemisphere. While significant progress has been made in treating a major sub-category of cardiac disease, arrhythmias, significant unmet needs remain. In particular, every day, thousands of patients die because of arrhythmias in the US alone, and atrial fibrillation is the most common arrhythmia affecting millions of patients in the US alone at a given time. Therefore, there is a public need to continue to develop new and better therapies for arrhythmias. Accordingly, an ever increasing number of biomedical, pharmaceutical, and medical personnel is interested in studying various aspects of arrhythmias at a basic, translational, and applied level, both in industry (ie Biotech, Pharmaceutical and device), and in academia. Not only has our overall understanding of molecular bases of disease dramatically increased, but so has the number of available and emerging molecular, pharmacological or device treatment based therapies. This practical, state-of-the art handbook will summarize and review key research methods and protocols, their advantages and pitfalls, with a focus on practical implementation, and collaborative cross-functional research. The volume will include visual and easy-to-use graphics, bulleted summaries, boxed summary paragraphs, links to reference websites, equipment manufacturers where appropriate, photographs of typical experimental setups and so forth, to keep this book very focused on practical methods and implementation, and yet, provide enough theory that the principles are clearly understood and can be easily applied.
Designed to enable newcomers to electrophysiology to choose appropriate preparations and techniques for in vitro studies in vertebrate neurobiology. Emphasizes techniques involving the glass micropipette and other recently developed methods, supplementing easy-to-follow instructions with illustrative schemes, examples of original records, photomicrographs, key word listings, comprehensive reference tables and a list of suppliers and key equipment and reagents.
Electrophysiological Methods in Biological Research, Third Revised Edition describes the principles and applications of significant electrophysiological methods as regards to transistorisation of electrophysiological apparatus and to the mathematical analysis of electrophysiological data. The book explains the aspects of physics and electronics that are important in electrophysiology, such as the basic principles of semiconductor function, electronic simulators, electrodes, and the processing of electrophysiological data. The text also cites several examples that measure the resulting membrane potential if one electrode is inside the cell while the other is in contact with the cell's surface. Other experiments show the electrophysiological techniques and the fundamentals of electrical activity in the peripheral excitable structures, and its association with physiological functions. In considering the problems of nerve and muscle physiology, the investigator should know the technique of recording the electrical signs of a nerve impulse. These signs, or action potentials, indicate the presence of a nerve impulse. The text also discusses the effects of barbiturates or ether anesthesia in EEG activity, as well as its dissociation after physostigmine and atropine have been administered. The book can prove useful for pharmacologists, microchemists, cellular biologists, and research workers and technologists dealing with neural mechanisms.
A multi-disciplinary look at the current state of knowledge regarding motor control and movement—from molecular biology to robotics The last two decades have seen a dramatic increase in the number of sophisticated tools and methodologies for exploring motor control and movement. Multi-unit recordings, molecular neurogenetics, computer simulation, and new scientific approaches for studying how muscles and body anatomy transform motor neuron activity into movement have helped revolutionize the field. Neurobiology of Motor Control brings together contributions from an interdisciplinary group of experts to provide a review of the current state of knowledge about the initiation and execution of movement, as well as the latest methods and tools for investigating them. The book ranges from the findings of basic scientists studying model organisms such as mollusks and Drosophila, to biomedical researchers investigating vertebrate motor production to neuroengineers working to develop robotic and smart prostheses technologies. Following foundational chapters on current molecular biological techniques, neuronal ensemble recording, and computer simulation, it explores a broad range of related topics, including the evolution of motor systems, directed targeted movements, plasticity and learning, and robotics. Explores motor control and movement in a wide variety of organisms, from simple invertebrates to human beings Offers concise summaries of motor control systems across a variety of animals and movement types Explores an array of tools and methodologies, including electrophysiological techniques, neurogenic and molecular techniques, large ensemble recordings, and computational methods Considers unresolved questions and how current scientific advances may be used to solve them going forward Written specifically to encourage interdisciplinary understanding and collaboration, and offering the most wide-ranging, timely, and comprehensive look at the science of motor control and movement currently available, Neurobiology of Motor Control is a must-read for all who study movement production and the neurobiological basis of movement—from molecular biologists to roboticists.