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Dual-Color Optical Recording of Bioelectric Potentials by Polymer Electrochromism.


ABSTRACT: Optical recording based on voltage-sensitive fluorescent reporters allows for spatial flexibility of measuring from desired cells, but photobleaching and phototoxicity of the fluorescent labels often limit their sensitivity and recording duration. Voltage-dependent optical absorption, rather than fluorescence, of electrochromic materials, would overcome these limitations to achieve long-term optical recording of bioelectrical signals. Electrochromic materials such as PEDOT:PSS possess the property that an applied voltage can either increase or decrease the light absorption depending on the wavelength. In this work, we harness this anticorrelated light absorption at two different wavelengths to significantly improve the signal detection. With dual-color detection, electrical activity from cells produces signals of opposite polarity, while artifacts, mechanical motions, and technical noises are uncorrelated or positively correlated. Using this technique, we are able to optically record cardiac action potentials with a high signal-to-noise ratio, 10 kHz sampling rate, >15 min recording duration, and no time-dependent degradation of the signal. Furthermore, we can reliably perform multiple recording sessions from the same culture for over 25 days.

SUBMITTER: Zhou Y 

PROVIDER: S-EPMC9801420 | biostudies-literature | 2022 Dec

REPOSITORIES: biostudies-literature

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Dual-Color Optical Recording of Bioelectric Potentials by Polymer Electrochromism.

Zhou Yuecheng Y   Liu Erica E   Yang Yang Y   Alfonso Felix S FS   Ahmed Burhan B   Nakasone Kenneth K   Forró Csaba C   Müller Holger H   Cui Bianxiao B  

Journal of the American Chemical Society 20221216 51


Optical recording based on voltage-sensitive fluorescent reporters allows for spatial flexibility of measuring from desired cells, but photobleaching and phototoxicity of the fluorescent labels often limit their sensitivity and recording duration. Voltage-dependent optical absorption, rather than fluorescence, of electrochromic materials, would overcome these limitations to achieve long-term optical recording of bioelectrical signals. Electrochromic materials such as PEDOT:PSS possess the proper  ...[more]

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