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In Vitro Neurochemical Techniques is the third work updating and expanding the best-selling inaugural volume of Humana Press's warmly received Neuromethods series, General Neurochemical Techniques (vol. 1). The key techniques detailed in this new edition encompass the breadth of neurochemical and molecular neurobiology research, ranging from the isolation of neuronal genes and the study of their expression to the analysis of receptor-ligand interactions, to the characterization of the consequences of receptor activation. The methods include electrophysiological techniques to explore the functional properties of receptors present in the membranes of excitable cells, methods to isolate novel genes central to neurobiological processes, and protocols to perform in situ hybridization histochemistry. Other methods cover the measurement of changes in gene expression, the rapid identification of gene polymorphisms, and the identification and characterization of second messenger pathways. The companion volumes, In Vivo Neuromethods and Cell Neurobiology Techniques, cover both in vivo methods and in vitro cell neurobiology approaches. Like the original, all three cutting-edge works will prove exceptionally useful to those basic and clinical neuroscientists who want to expand the range of their current research or develop competence in complementary methods.
In Vitro Neurochemical Techniques is the third work updating and expanding the best-selling inaugural volume of Humana Press's warmly received Neuromethods series, General Neurochemical Techniques (vol. 1). The key techniques detailed in this new edition encompass the breadth of neurochemical and molecular neurobiology research, ranging from the isolation of neuronal genes and the study of their expression to the analysis of receptor-ligand interactions, to the characterization of the consequences of receptor activation. The methods include electrophysiological techniques to explore the functional properties of receptors present in the membranes of excitable cells, methods to isolate novel genes central to neurobiological processes, and protocols to perform in situ hybridization histochemistry. Other methods cover the measurement of changes in gene expression, the rapid identification of gene polymorphisms, and the identification and characterization of second messenger pathways. The companion volumes, In Vivo Neuromethods and Cell Neurobiology Techniques, cover both in vivo methods and in vitro cell neurobiology approaches. Like the original, all three cutting-edge works will prove exceptionally useful to those basic and clinical neuroscientists who want to expand the range of their current research or develop competence in complementary methods.
A superb collection of time-tested, key techniques for investigating nervous system function, as well as the actions of drugs on the nervous system. The methods range from authoritative treatment of such well-established techniques as recording electrical activity in the brain, to practical coverage of state-of-the-art methods, including neural transplantation and antisense technology. The techniques described are particularly suitable for studying the mechanisms of action of psychotropic drugs and drugs of abuse, as well as the etiology and pharmacotherapy of neuropsychiatric diseases and neurodegenerative disorders. Several of the methods detailed are highly useful in screening potential drugs for the treatment of depression, anxiety disorders, schizophrenia, and Parkinson's and Alzheimer's disease.
The cutting-edge techniques detailed here include those that are particularly popular in multidisciplinary neuroscience research. There are readily reproducible methods for establishing neural cell cultures, measuring enzymes and their inhibitors, and using quantitative autoradiography to study monoamine uptake sites and receptors in the brain. Additional methods cover the use of flow cytometry to study developmental neurobiology, applications of magnetic resonance spectroscopy (MRS) to human brain metabolism, and the study of drug metabolism. Together with its companion volumes, In Vivo Neuromethods and In Vitro Neurochemical Techniques, all three cutting-edge works will prove exceptionally useful to those basic and clinical neuroscientists who want to expand the range of their current research or develop competence in complementary methods.
The cutting-edge techniques detailed here include those that are particularly popular in multidisciplinary neuroscience research. There are readily reproducible methods for establishing neural cell cultures, measuring enzymes and their inhibitors, and using quantitative autoradiography to study monoamine uptake sites and receptors in the brain. Additional methods cover the use of flow cytometry to study developmental neurobiology, applications of magnetic resonance spectroscopy (MRS) to human brain metabolism, and the study of drug metabolism. Together with its companion volumes, In Vivo Neuromethods and In Vitro Neurochemical Techniques, all three cutting-edge works will prove exceptionally useful to those basic and clinical neuroscientists who want to expand the range of their current research or develop competence in complementary methods.
Neurochemistry / Neurophysiology / Neurotransmitter receptors / Neural receptors / Cerebral circulation / Brain / Radionuclide imaging / Physicochemical techniques / Receptor binding.
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
This volume explores the latest techniques used to better understand the brain reward system with respect to neurotransmitters, brain structures, and connectivity. This book aims to show readers tested laboratory protocols to study neural circuitry and biological processes implicated in reward, and in neuropsychiatric disorders such as substance use disorders. The chapters are organized into four parts. Part One addresses classical techniques to study the brain reward system, including the curve shift paradigm in intracranial self-stimulation, stereotaxic surgery in rodents, and the use of brain lesions. Part Two focuses on neurochemical, behavioral, and chemogenetic techniques such as immunofluorescence for assessing adult hippocampal neurogenesis, and fast-scan voltammetry. Part Three highlights methods used to assess the rewarding potential of drugs including intracranial self-stimulation combined with drug injection, and the use of viral vectors. The Fourth Part introduces imaging and electrophysiology techniques such as positron emission tomography, in vivo electrophysiology, and fiber photometry. In the Neuromethods series style, chapters include the kind of detail and key advice from the specialists needed to get successful results in your laboratory. Cutting-edge and thorough, The Brain Reward System is a valuable resource for researchers interested in learning more about the current methods used to study the delineation of the brain reward system.
The Handbook is intended to be a service to the neuroscience community, to help in finding available and useful information, to point out gaps in our knowledge, and to encourage continued studies. It represents the valuable contributions of the many authors of the chapters and the guidance of the editors and most important, it represents support for research in this discipline. Based on the rapid advances in the years since the second edition