Membrane Potential Imaging in the Nervous System: Methods and Applications
★★★★★
★★★★★
English
The book is structured in five sections, each containing several chapters written by experts and major contributors to particular topics. The volume starts with a historical perspective and fundamental principles of membrane potential imaging and continues to cover the measurement of membrane potential signals from dendrites and axons of individual neurons, measurements of the activity of many neurons with single cell resolution, monitoring of population signals from the nervous system, and concludes with the overview of new approaches to voltage-imaging. The book is targeted at all scientists interested in this mature but also rapidly expanding imaging approach.
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Product Details
Dimensions: 210 x 279mm
Publication Date: 01 Nov 2010
Publisher: Springer-Verlag New York Inc.
Publication City/Country: United States
Language: English
ISBN13: 9781441965578
About
Dejan Zecevic (b. Belgrade 1948) is a Research Scientist at the Department of Cellular and Molecular Physiology Yale University School of Medicine. He received the PhD in Biophysics from The University of Belgrade Serbia and was trained in the laboratory of Dr Lawrence Cohen who initiated the field of voltage-sensitive dye recording. Dejan is the pioneer of intracellular voltage-sensitive dye imaging technique a unique and a cutting edge technology for monitoring the membrane potential fluctuation in dendritic spines and fine branches. Marco (b. Milan 1970) is first class INSERM researcher (CR1) working at the Grenoble Institute of Neuroscience. He graduated in physics at the University of Genoa and received his PhD in biophysics from the International School for Advanced Studies in Trieste. He worked at the National Institute for Medical Research in London at Yale University and at the University of Basel. Marco is expert on several optical techniques applied to neurophysiology. Marco and Dejan collaborated for a number of years using voltage-imaging and calcium imaging approaches to study mechanisms underlying synaptic plasticity.