Many advantages make optical methods more and more interesting for neuroscientists. Thanks to the development of new voltage-sensitive dyes and of optogenetic probes, photon-based exploration of neuronal electrical activity is rapidly overcoming most of the electron-based techniques for electrophysiological investigations. These innovative labeling strategies have been recently combined with nonlinear imaging techniques, giving new trigger to the investigation of neuronal circuitry. Advances in nonlinear optical imaging of neuron voltage now provide not only a readout of the electrical activity of each neuron through wide microcircuits but also a map of the functionality of dendritic trees and synaptic compartments.
Breakthroughs in Photonics 2012: Nonlinear Laser Imaging for Neuroscience / Anna Letizia Allegra Mascaro;Ludovico Silvestri;Leonardo Sacconi;Francesco S. Pavone. - In: IEEE PHOTONICS JOURNAL. - ISSN 1943-0655. - STAMPA. - 5:(2013), pp. 0701006-0701006. [10.1109/JPHOT.2013.2250941]
Breakthroughs in Photonics 2012: Nonlinear Laser Imaging for Neuroscience
Ludovico Silvestri;PAVONE, FRANCESCO SAVERIO
2013
Abstract
Many advantages make optical methods more and more interesting for neuroscientists. Thanks to the development of new voltage-sensitive dyes and of optogenetic probes, photon-based exploration of neuronal electrical activity is rapidly overcoming most of the electron-based techniques for electrophysiological investigations. These innovative labeling strategies have been recently combined with nonlinear imaging techniques, giving new trigger to the investigation of neuronal circuitry. Advances in nonlinear optical imaging of neuron voltage now provide not only a readout of the electrical activity of each neuron through wide microcircuits but also a map of the functionality of dendritic trees and synaptic compartments.
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