2nd Edition

In Vivo Optical Imaging of Brain Function

Edited By Ron D. Frostig Copyright 2009
    428 Pages
    by CRC Press

    504 Pages
    by CRC Press

    These are exciting times for the field of optical imaging of brain function. Rapid developments in theory and technology continue to considerably advance understanding of brain function. Reflecting changes in the field during the past five years, the second edition of In Vivo Optical Imaging of Brain Function describes state-of-the-art techniques and their applications for the growing field of functional imaging in the live brain using optical imaging techniques.





    New in the Second Edition:







    • Voltage-sensitive dyes imaging in awake behaving animals


    • Imaging based on genetically encoded probes


    • Imaging of mitochondrial auto-fluorescence as a tool for cortical mapping


    • Using pH-sensitive dyes for functional mapping


    • Modulated imaging


    • Calcium imaging of neuronal activity using 2-photon microscopy


    • Fourier approach to optical imaging


    • Fully updated chapters from the first edition






    Leading Authorities Explore the Latest Techniques



    Updated to reflect continuous development in this emerging research area, this new edition, as with the original, reaches across disciplines to review a variety of non-invasive optical techniques used to study activity in the living brain. Leading authorities from such diverse areas as biophysics, neuroscience, and cognitive science present a host of perspectives that range from a single neuron to large assemblies of millions of neurons, captured at various temporal and spatial resolutions. Introducing techniques that were not available just a few years ago, the authors describe the theory, setup, analytical methods, and examples that highlight the advantages of each particular method.

    Optical Imaging of Brain Activity In Vivo Using Genetically Encoded Probes. Two-Photon Functional Imaging of Neuronal Activity. In Vivo Two-Photon Laser Scanning Microscopy with Concurrent Plasma-Mediated Ablation: Principles and Hardware Realization. MPScope 2.0: A Computer System for Two-Photon Laser Scanning Microscopy with Concurrent Plasma-Mediated Ablation and Electrophysiology. In Vivo Observations of Rapid Scattered Light Changes Associated with Neurophysiological Activity. Imaging the Brain in Action: Real-Time Voltage-Sensitive Dye Imaging of Sensorimotor Cortex of Awake Behaving Mice. Flavoprotein Fluorescence Imaging of Experience-Dependent Cortical Plasticity in Rodents. Functional Imaging with Mitochondrial Flavoprotein Autofluorescence: Theory, Practice, and Applications. Visualizing Adult Cortical Plasticity Using Intrinsic Signal Optical Imaging. Fourier Approach for Functional Imaging. Optical Imaging of Neuronal Activity in the Cerebellar Cortex Using Neutral Red. Quantitative In Vivo Imaging of Tissue Absorption, Scattering, and Hemoglobin Concentration in Rat Cortex Using Spatially-Modulated Structured Light. Intraoperative Optical Imaging. Noninvasive Imaging of Cerebral Activation with Diffuse Optical Tomography. Fast Optical Signals: Principles, Methods, and Experimental Results.

    Biography

    Ron D. Frostig