A Multimodal Multi-Shank Fluorescence Neural Probe for Cell-Type-Specific Electrophysiology in Multiple Regions across a Neural Circuit

Authors
Chou, NamsunShin, HyogeunKim, KanghwanChae, UikyuJang, MinsuJeong, Ui-JinHwang, Kyeong-SeobYi, BumjunLee, Seung EunWoo, JiwanCho, YakdolLee, ChanghyukBaker, Bradley J.Oh, Soo-JinNam, Min-HoChoi, NakwonCho, Il-Joo
Issue Date
2022-01
Publisher
Wiley-VCH Verlag
Citation
Advanced Science, v.9, no.2
Abstract
Cell-type-specific, activity-dependent electrophysiology can allow in-depth analysis of functional connectivity inside complex neural circuits composed of various cell types. To date, optics-based fluorescence recording devices enable monitoring cell-type-specific activities. However, the monitoring is typically limited to a single brain region, and the temporal resolution is significantly low. Herein, a multimodal multi-shank fluorescence neural probe that allows cell-type-specific electrophysiology from multiple deep-brain regions at a high spatiotemporal resolution is presented. A photodiode and an electrode-array pair are monolithically integrated on each tip of a minimal-form-factor silicon device. Both fluorescence and electrical signals are successfully measured simultaneously in GCaMP6f expressing mice, and the cell type from sorted neural spikes is identified. The probe's capability of combined electro-optical recordings for cell-type-specific electrophysiology at multiple brain regions within a neural circuit is demonstrated. The new experimental paradigm to enable the precise investigation of functional connectivity inside and across complex neural circuits composed of various cell types is expected.
Keywords
NEURONAL-ACTIVITY; SILICON PROBES; CALCIUM; DYNAMICS; INDICATORS; POPULATIONS; WIRELESS; cell-type identification; electrophysiology; fluorescence signal; genetically encoded indicator; neural circuit; neural probe
ISSN
2198-3844
URI
https://pubs.kist.re.kr/handle/201004/115912
DOI
10.1002/advs.202103564
Appears in Collections:
KIST Article > 2022
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