Neuronal network analysis : concepts and experimental approaches /

Neuronal network analysis : concepts and experimental approaches /

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Bibliographic Details
Imprint:New York : Humana Press, ©2012.
Description:1 online resource (xiii, 490 pages)
Language:English
Series:Neuromethods, 0893-2336 ; 67
Neuromethods ; 67.
Subject:
Neural networks (Neurobiology) -- Laboratory manuals.
Nerve Net.
Electrophysiological Phenomena.
Neural networks (Neurobiology)
Handbook.
Laboratory manuals.
Format: E-Resource Book
URL for this record:http://pi.lib.uchicago.edu/1001/cat/bib/11145831
Hidden Bibliographic Details
Other authors / contributors:Fellin, Tommaso.
Halassa, Michael.
ISBN:9781617796333
1617796336
1617796328
9781617796326
9781617796326
Digital file characteristics:text file
Notes:Includes index.
Includes bibliographical references and indexes.
English.
Summary:In the last few years, technologies that allow for monitoring and manipulating neuronal networks at a single cell resolution have been rapidly expanding. In Neuronal Network Analysis: Concepts and Experimental Approaches, experts in the field provide an overview of some of the most advanced techniques for the study of neuronal circuits, highlighting current technical limitations and providing a vision of what is yet to come. Broken into six convenient, interdependent section, this volume covers optical approaches, electrophysiological approaches, both in vitro and in vivo, optogenetics, morpho-functional approaches, and neuronal network analysis in humans. As a volume in the Neuromethods series, this work provides the kind of detailed description and implementation advice that is crucial for getting optimal results. Authoritative and cutting-edge, Neuronal Network Analysis: Concepts and Experimental Approaches will be useful for early career neuroscientists, as well as for experienced neuroscientists, by providing a practical framework for studying the brain as an organ while maintaining an appreciation for its cellular diversity.
Other form:Printed edition: 9781617796326
Standard no.:10.1007/978-1-61779-633-3
Table of Contents:
  • Optical Interrogation of Neural Circuits
  • In Vivo Functional Imaging of the Olfactory Bulb at Single Cell Resolution
  • Two-Photon Imaging of Neural Activity in Awake, Head-Fixed Mice
  • Spatial Light Modulators for Complex Spatio-Temporal Illumination of Neuronal Networks
  • Voltage-Sensitive Dye Imaging of Cortical Function In Vivo
  • An Introduction to In Vitro Slice Approaches for the Study of Neuronal Circuitry
  • Extracellular Recordings of Synaptic Plasticity and Network Oscillations in Hippocampal Slices
  • Use of Dynamic-Clamp as a Tool to Reveal the Computational Properties of Single Neurons Embedded in Cortical Circuits
  • Fast Perfusion Methods for the Study of Ligand-Gated Ion Channels
  • Electrophysiological Approaches for Studying Neuronal Circuits In Vivo
  • Determination of Cortical Circuit Function Using Current Source-Density (CSD) Analysis In Vivo
  • Intracellular Whole-Cell Patch-Clamp Recordings of Cortical Neurons in Awake Head-Restrained Mice
  • Investigating Sleep Homeostasis with Extracellular Recording of Multiunit Activity from the Neocortex in Freely-Behaving Rats
  • Analysis of Hippocampal Memory Replay Using Neural Population Decoding
  • High Speed Videography of Embodied Active Sensing in the Rodent Whisker System
  • Light-Activated Ion Pumps and Channels for Temporally-Precise Optical Control of Activity in Genetically-Targeted Neurons
  • Integrated Optogenetic and Electrophysiological Dissection of Local Cortical Circuits In Vivo
  • Combining Optical Stimulation with Extracellular Electrophysiology in Behaving Mice
  • Morphological Approaches to the Anatomical Dissection of Neuronal Circuits
  • The Isotropic Fractionator: A Fast, Reliable Method to Determine Numbers of Cells in the Brain or Other Tissues
  • Morpho-Functional Mapping of Cortical Networks in Brain Slice Preparations Using Paired Electrophysiological Recordings
  • Combining Transcranial Magnetic Stimulation with Electroencephalography to Study Human Cortical Excitability and Effective Connectivity
  • Biophysically Principled Computational Neural Network Modeling of Magneto-/Electro-Encephalography (MEG/EEG) Measured Human Brain Oscillations.

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