基于超连续谱光的光谱-时间调制实现神经活动的双光子同步激活与成像。

Simultaneous two-photon activation and imaging of neural activity based on spectral-temporal modulation of supercontinuum light.

作者信息

Liu Yuan-Zhi, Renteria Carlos, Courtney Connor D, Ibrahim Baher, You Sixian, Chaney Eric J, Barkalifa Ronit, Iyer Rishyashring R, Zurauskas Mantas, Tu Haohua, Llano Daniel A, Christian-Hinman Catherine A, Boppart Stephen A

机构信息

University of Illinois at Urbana-Champaign, Beckman Institute for Advanced Science and Technology, Urbana, Illinois, United States.

University of Illinois at Urbana-Champaign, Department of Electrical and Computer Engineering, Urbana, Illinois, United States.

出版信息

Neurophotonics. 2020 Oct;7(4):045007. doi: 10.1117/1.NPh.7.4.045007. Epub 2020 Nov 3.

DOI:10.1117/1.NPh.7.4.045007

PMID:33163545

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7607614/

Abstract

SIGNIFICANCE

Recent advances in nonlinear optics in neuroscience have focused on using two ultrafast lasers for activity imaging and optogenetic stimulation. Broadband femtosecond light sources can obviate the need for multiple lasers by spectral separation for chromatically targeted excitation.

AIM

We present a photonic crystal fiber (PCF)-based supercontinuum source for spectrally resolved two-photon (2P) imaging and excitation of GCaMP6s and C1V1-mCherry, respectively.

APPROACH

A PCF is pumped using a 20-MHz repetition rate femtosecond laser to generate a supercontinuum of light, which is spectrally separated, compressed, and recombined to image GCaMP6s (930 nm excitation) and stimulate the optogenetic protein, C1V1-mCherry (1060 nm excitation). Galvanometric spiral scanning is employed on a single-cell level for multiphoton excitation and high-speed resonant scanning is employed for imaging of calcium activity.

RESULTS

Continuous wave lasers were used to verify functionality of optogenetic activation followed by directed 2P excitation. Results from these experiments demonstrate the utility of a supercontinuum light source for simultaneous, single-cell excitation and calcium imaging.

CONCLUSIONS

A PCF-based supercontinuum light source was employed for simultaneous imaging and excitation of calcium dynamics in brain tissue. Pumped PCFs can serve as powerful light sources for imaging and activation of neural activity, and overcome the limited spectra and space associated with multilaser approaches.

摘要

意义

神经科学中非线性光学的最新进展集中在使用两台超快激光器进行活动成像和光遗传学刺激。宽带飞秒光源可通过光谱分离实现彩色靶向激发，从而无需使用多台激光器。

目的

我们展示一种基于光子晶体光纤（PCF）的超连续谱光源，用于分别对GCaMP6s和C1V1- mCherry进行光谱分辨双光子（2P）成像和激发。

方法

使用重复频率为20MHz的飞秒激光泵浦光子晶体光纤以产生超连续谱光，该超连续谱光经光谱分离、压缩和重新组合，用于对GCaMP6s进行成像（930nm激发）以及刺激光遗传学蛋白C1V1- mCherry（1060nm激发）。在单细胞水平上采用振镜螺旋扫描进行多光子激发，采用高速共振扫描对钙活性进行成像。

结果

使用连续波激光器验证光遗传学激活功能，随后进行定向2P激发。这些实验结果证明了超连续谱光源在单细胞同步激发和钙成像方面的实用性。

结论

基于光子晶体光纤的超连续谱光源用于同时成像和激发脑组织中的钙动力学。泵浦光子晶体光纤可作为用于成像和激活神经活动的强大光源，并克服了与多激光器方法相关的光谱和空间限制。

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基于超连续谱光的光谱-时间调制实现神经活动的双光子同步激活与成像。

Simultaneous two-photon activation and imaging of neural activity based on spectral-temporal modulation of supercontinuum light.

作者信息

机构信息

出版信息

SIGNIFICANCE

AIM

APPROACH

RESULTS

CONCLUSIONS

意义

目的

方法

结果

结论

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