Suzie Dufour scite author profile

Recording electrical activity from identified neurons in intact tissue is key to understanding their role in information processing. Recent fluorescence labeling techniques have opened new possibilities to combine electrophysiological recording with optical detection of individual neurons deep in brain tissue. For this purpose we developed dual-core fiberoptics-based microprobes, with an optical core to locally excite and collect fluorescence, and an electrolyte-filled hollow core for extracellular single unit electrophysiology. This design provides microprobes with tips < 10 μm, enabling analyses with single-cell optical resolution. We demonstrate combined electrical and optical detection of single fluorescent neurons in rats and mice. We combined electrical recordings and optical Ca²(+) measurements from single thalamic relay neurons in rats, and achieved detection and activation of single channelrhodopsin-expressing neurons in Thy1::ChR2-YFP transgenic mice. The microprobe expands possibilities for in vivo electrophysiological recording, providing parallel access to single-cell optical monitoring and control.

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Brief activation of GABAergic interneurons initiates the transition to ictal events through post-inhibitory rebound excitation

Chang

Dian

Dufour

et al. 2018

Neurobiology of Disease

100

102

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Optrodes for combined optogenetics and electrophysiology in live animals

Dufour

Koninck

2015

Neurophoton

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Optical tissue properties limit visible light depth penetration in tissue. Because of this, the recent development of optogenetic tools was quickly followed by the development of light delivery devices for in vivo optogenetics applications. We summarize the efforts made in the last decade to design neural probes that combine conventional electrophysiological recordings and optical channel(s) for optogenetic activation, often referred to as optodes or optrodes. Several aspects including challenges for light delivery in living brain tissue, the combination of light delivery with electrophysiological recordings, probe designs, multimodality, wireless implantable system, and practical considerations guiding the choice of configuration depending on the questions one seeks to address are presented.

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In vivo simultaneous intra- and extracellular potassium recordings using a micro-optrode

Dufour

Chever

et al. 2011

Journal of Neuroscience Methods

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Suzie Dufour

A microprobe for parallel optical and electrical recordings from single neurons in vivo

Brief activation of GABAergic interneurons initiates the transition to ictal events through post-inhibitory rebound excitation

Optrodes for combined optogenetics and electrophysiology in live animals

In vivo simultaneous intra- and extracellular potassium recordings using a micro-optrode

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