Integration of reconfigurable microchannels into aligned three-dimensional neural networks for spatially controllable neuromodulation

Authors
Jeong, SohyeonKang, Hyun WookKim, So HyunHong, Gyu-SangNam, Min-HoSeong, JihyeYoon, Eui-SungCho, Il-JooChung, SeokBang, SeokyoungKim, Hong NamChoi, Nakwon
Issue Date
2023-03
Publisher
American Association for the Advancement of Science
Citation
Science Advances, v.9, no.10
Abstract
Anisotropically organized neural networks are indispensable routes for functional connectivity in the brain, which remains largely unknown. While prevailing animal models require additional preparation and stimulation-applying devices and have exhibited limited capabilities regarding localized stimulation, no in vitro platform exists that permits spatiotemporal control of chemo-stimulation in anisotropic three-dimensional (3D) neural networks. We present the integration of microchannels seamlessly into a fibril-aligned 3D scaffold by adapting a single fabrication principle. We investigated the underlying physics of elastic microchannels' ridges and interfacial sol-gel transition of collagen under compression to determine a critical window of geometry and strain. We demonstrated the spatiotemporally resolved neuromodulation in an aligned 3D neural network by local deliveries of KCl and Ca2+ signal inhibitors, such as tetrodotoxin, nifedipine, and mibefradil, and also visualized Ca2+ signal propagation with a speed of similar to 3.7 mu m/s. We anticipate that our technology will pave the way to elucidate functional connectivity and neurological diseases associated with transsynaptic propagation.
Keywords
THERAPY; DRUG; POLYMERIZATION; OSTEOPOROSIS; NANOGELS; PROTOCOL; CELLS
URI
https://pubs.kist.re.kr/handle/201004/113907
DOI
10.1126/sciadv.adf0925
Appears in Collections:
KIST Article > 2023
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