Flexible Fiber Probe for Efficient Neural Stimulation and Detection

Functional probes are a leading contender for the recognition and manipulation of nervous behavior and are characterized by substantial scientific and technological potential. Despite the recent development of functional neural probes, a flexible biocompatible probe unit that allows for long‐term si...

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Bibliographic Details
Published in:Advanced science 2020-08, Vol.7 (15), p.2001410-n/a
Main Authors: Du, Minghui, Huang, Lu, Zheng, Jiajun, Xi, Yue, Dai, Yi, Zhang, Weida, Yan, Wei, Tao, Guangming, Qiu, Jianrong, So, Kwok‐Fai, Ren, Chaoran, Zhou, Shifeng
Format: Article
Language:English
Subjects:
brain–machine interfaces
Communication
Communications
flexible fiber probes
neural recording
neural stimulation
optogenetics
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Summary:Functional probes are a leading contender for the recognition and manipulation of nervous behavior and are characterized by substantial scientific and technological potential. Despite the recent development of functional neural probes, a flexible biocompatible probe unit that allows for long‐term simultaneous stimulation and signaling is still an important task. Here, a category of flexible tiny multimaterial fiber probes (90%), and effectively minimizes the impedance (by up to one order of magnitude) of the probe. This ability allows to realize long‐term (at least 10 weeks) simultaneous optical stimulation and neural recording at the single‐cell level in behaving mice with signal‐to‐noise ratio (SNR = 30 dB) that is more than 6 times that of the benchmark probe such as an all‐polymer fiber. A category of tiny fiber probes with metal electrodes regularly embedded inside the double‐clad biocompatible polymer fiber is realized. This arrangement enables excellent mechanical properties, high transmission (>90%), and low impedance (22.71 MΩ cm2 at 1 kHz), which can realize long‐term simultaneous optical stimulation and neural recording at the single‐cell level in behaving mice with high signal‐to‐noise ratio.
ISSN:2198-3844
2198-3844
DOI:10.1002/advs.202001410