Optically Selective Neuron Stimulation with a Wavefront Shaping‐Empowered Multimode Fiber

Tianting Zhong; Zhihai Qiu; Yong Wu; Jinghui Guo; Huanhao Li; Zhipeng Yu; Shengfu Cheng; Yingying Zhou; Jiejun Zhu; Jie Tian; Lei Sun; Puxiang Lai

doi:10.1002/adpr.202100231

Advanced Photonics Research (Mar 2022)

Optically Selective Neuron Stimulation with a Wavefront Shaping‐Empowered Multimode Fiber

Tianting Zhong,
Zhihai Qiu,
Yong Wu,
Jinghui Guo,
Huanhao Li,
Zhipeng Yu,
Shengfu Cheng,
Yingying Zhou,
Jiejun Zhu,
Jie Tian,
Lei Sun,
Puxiang Lai

Affiliations

Tianting Zhong: Department of Biomedical Engineering Hong Kong Polytechnic University Hong Kong SAR Hung Hom Hong Kong
Zhihai Qiu: Department of Biomedical Engineering Hong Kong Polytechnic University Hong Kong SAR Hung Hom Hong Kong
Yong Wu: Department of Biomedical Engineering Hong Kong Polytechnic University Hong Kong SAR Hung Hom Hong Kong
Jinghui Guo: Department of Biomedical Engineering Hong Kong Polytechnic University Hong Kong SAR Hung Hom Hong Kong
Huanhao Li: Department of Biomedical Engineering Hong Kong Polytechnic University Hong Kong SAR Hung Hom Hong Kong
Zhipeng Yu: Department of Biomedical Engineering Hong Kong Polytechnic University Hong Kong SAR Hung Hom Hong Kong
Shengfu Cheng: Department of Biomedical Engineering Hong Kong Polytechnic University Hong Kong SAR Hung Hom Hong Kong
Yingying Zhou: Department of Biomedical Engineering Hong Kong Polytechnic University Hong Kong SAR Hung Hom Hong Kong
Jiejun Zhu: Department of Biomedical Engineering Hong Kong Polytechnic University Hong Kong SAR Hung Hom Hong Kong
Jie Tian: Beijing Advanced Innovation Center for Big Data-Based Precision Medicine School of Medical Science and Engineering Beihang University Beijing 100191 China
Lei Sun: Department of Biomedical Engineering Hong Kong Polytechnic University Hong Kong SAR Hung Hom Hong Kong
Puxiang Lai: Department of Biomedical Engineering Hong Kong Polytechnic University Hong Kong SAR Hung Hom Hong Kong

DOI: https://doi.org/10.1002/adpr.202100231
Journal volume & issue: Vol. 3, no. 3
pp. n/a – n/a

Abstract

Read online

Optogenetics is proved to be a powerful tool for exploring the connection between behavior and neural circuits. The progress greatly benefits from the advances of optical techniques that enable high spatiotemporal resolution for selective single‐neuron stimulation through modulating light. Efficient propagation of modulated light, however, is handicapped by strong optical scattering in biological tissues, which results in inherent tradeoff between penetration depth and resolution. Schemes like graded index (GRIN) lens‐based microendoscopes are developed to yield more confined delivery of light, but tissue damage caused by the insertion of the bulky components cannot be ignored. Herein, an optically selective precise neuron stimulation using an ultrathin multimode fiber (MMF) is demonstrated, which is empowered by optical wavefront shaping to achieve light focusing and rapid raster scanning without mechanical movement at the distal end of the MMF and even through a mouse skull. With this method, primary neurons expressing Chr2 can be regulated spatiotemporally in experiment. Although a lot shall be further improved, the work may open up new venues for noninvasive or minimally invasive all‐optical investigation of neural circuits in used‐to‐be optically inaccessible brain regions.

Published in Advanced Photonics Research

ISSN: 2699-9293 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Technology: Engineering (General). Civil engineering (General): Applied optics. Photonics; Science: Physics: Optics. Light
Website: https://onlinelibrary.wiley.com/journal/26999293

About the journal

Abstract

Keywords