Synopses & Reviews
This book book is an attempt to review the recent progress in both electronics and computational tools developed to analyze the functional operations of large ensembles of neurons and to provide the readers with a sense of the applications made possible by these technological tools. While considerable progress has been made over the last decades in our understanding of electrophysiological processes at the single channel, single synapse, and single neuron levels, our understanding of electrophysiological processes at the neuronal network level is still in its infancy. This book includes: Technological overviews of multi-electrode arrays (MEAs) and related electronics and software, Applications of MEAs to study ensemble activity of dissociated cell cultures including cardiac myocytes, Applications of the technology for drug discovery using acute and cultured slices. Examples of studies directed at understanding the origins and functions of various rhythmic activities in neuronal ensembles.
Synopsis
Advances in Network Electrophysiology: Using Multi Electrode Arrays explores methods for using electrophysiological techniques for monitoring the concurrent activity of ensembles of single neurons. It reviews the recent progress in both electronics and computational tools developed to analyze the functional operations of large ensembles of neurons using multi-electrode arrays and in vitro preparations. In addition, it gives readers a sense of the applications made possible by these technological tools. This volume is the reference for researchers, industry, graduate students, and postdoctoral fellows in all areas of neuroscience, cognitive neuroscience, pharmaceutical science, and bioengineering.
Table of Contents
Preface.- Section I Development of MEA for Cells, Acute Slices, and Cultured Tissues: A History of MEA Development.- On Micro Electrode Array Revival: Its Development, Sophistication of Recording, and Stimulation.- Multi Electrode Arrays: Enhancing Traditional Methods and Enabling Network Physiology.- Development of 3D Multi Electrode Arrays for Use with Acute Tissue Slices.- Electrophysiological Monitoring of Hippocampal Slice Cultures Using MEA on Porous Membranes.- Pattern Technologies for Structuring Neuronal Networks on MEAs.- Section 2 MEA Applications: Dissociated Cell Cutlures: Emerging Histiotypic Properties of Cultured Neuronal Networks.- Closing the Loop: Stimulation Feedback Systems for Embodied MEA Cultures.- Emerging Network Activity in Dissociated Cultures of Neocortex: Novel Electrophsiological Protocols and Mathematical Modeling.- Analysis of Cardiac Myocyte Activity Dynamics with Microelectrode Arrays.- Section 3 MEA Applications: Acute/Cultured Slices: Mapping Spatio-Temporal Electrophysiological Activity in Hippocampal Slices with Conformal Planar Multi Electrode Arrays.- The Retinasensor: an In vitro Tool to Study Drug Effects on Retinal Signaling.- A Hippocampal-Based Biosensor for Neurotoxins Detection and Classification Using a Novel Short-Term Plasticity Quantification Method.- Chronic Alcohol Effects on Hippocampal Neuronal Networks.- Development of a Multi-Array Recording Systems and its Applications in Drug Discovery Using Acute and Cultured Hippocampal Slices.- Rhythm Generation in Spinal Cultures: Is it the Neuron or the Network? -Monitoring the Clock Neuron's Tick: Circadian Rhythm Analysis Using a Multi-Electrode Array Dish.- Investigation of Network Phenomena in Hippocampal Slices Using Multi Electrode Recording Arrays.- Exploring Fast Hippocampal Network Oscillations: Combining Multi Electrode Recording with Optical Imaging and Patch-Clamp Techniques.- Index.