Visualizing cortical response to optogenetic stimulation and sensory inputs using multispectral handheld optoacoustic imaging

Saak V. Ovsepian; Yuanyuan Jiang; Thomas C.P. Sardella; Jaber Malekzadeh-Najafabadi; Neal C. Burton; Xin Yu; Vasilis Ntziachristos

doi:10.1016/j.pacs.2019.100153

Visualizing cortical response to optogenetic stimulation and sensory inputs using multispectral handheld optoacoustic imaging

Saak V. Ovsepian, Yuanyuan Jiang, Thomas C.P. Sardella, Jaber Malekzadeh-Najafabadi, Neal C. Burton, Xin Yu, Vasilis Ntziachristos

Chair of Biological Imaging

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

To date, the vast majority of intra-vital neuroimaging systems applied in clinic and diagnostics is stationary with a rigid scanning element, requires specialized facilities and costly infrastructure. Here, we describe a simple yet radical approach for optoacoustic (photoacoustic) brain imaging in vivo using a light-weight handheld probe. It enables multispectral video-rate visualization of hemoglobin gradient changes in the cortex of adult rats induced by whisker and forelimb sensory inputs, as well as by optogenetic stimulation of intra-cortical connections. With superb penetration and molecular specificity, described here in method holds major promises for future applications in research, routine ambulatory neuroimaging, and diagnostics.

Original language	English
Article number	100153
Journal	Photoacoustics
Volume	17
DOIs	https://doi.org/10.1016/j.pacs.2019.100153
State	Published - Mar 2020

Keywords

Barrel cortex
Brain
Handheld probe
Hemoglobin gradients
Neuroimaging
Optogenetic stimulation
Photoacoustic

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10.1016/j.pacs.2019.100153

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abstract = "To date, the vast majority of intra-vital neuroimaging systems applied in clinic and diagnostics is stationary with a rigid scanning element, requires specialized facilities and costly infrastructure. Here, we describe a simple yet radical approach for optoacoustic (photoacoustic) brain imaging in vivo using a light-weight handheld probe. It enables multispectral video-rate visualization of hemoglobin gradient changes in the cortex of adult rats induced by whisker and forelimb sensory inputs, as well as by optogenetic stimulation of intra-cortical connections. With superb penetration and molecular specificity, described here in method holds major promises for future applications in research, routine ambulatory neuroimaging, and diagnostics.",

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AU - Ovsepian, Saak V.

AU - Jiang, Yuanyuan

AU - Sardella, Thomas C.P.

AU - Malekzadeh-Najafabadi, Jaber

AU - Burton, Neal C.

AU - Yu, Xin

AU - Ntziachristos, Vasilis

PY - 2020/3

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N2 - To date, the vast majority of intra-vital neuroimaging systems applied in clinic and diagnostics is stationary with a rigid scanning element, requires specialized facilities and costly infrastructure. Here, we describe a simple yet radical approach for optoacoustic (photoacoustic) brain imaging in vivo using a light-weight handheld probe. It enables multispectral video-rate visualization of hemoglobin gradient changes in the cortex of adult rats induced by whisker and forelimb sensory inputs, as well as by optogenetic stimulation of intra-cortical connections. With superb penetration and molecular specificity, described here in method holds major promises for future applications in research, routine ambulatory neuroimaging, and diagnostics.

AB - To date, the vast majority of intra-vital neuroimaging systems applied in clinic and diagnostics is stationary with a rigid scanning element, requires specialized facilities and costly infrastructure. Here, we describe a simple yet radical approach for optoacoustic (photoacoustic) brain imaging in vivo using a light-weight handheld probe. It enables multispectral video-rate visualization of hemoglobin gradient changes in the cortex of adult rats induced by whisker and forelimb sensory inputs, as well as by optogenetic stimulation of intra-cortical connections. With superb penetration and molecular specificity, described here in method holds major promises for future applications in research, routine ambulatory neuroimaging, and diagnostics.

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KW - Brain

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Visualizing cortical response to optogenetic stimulation and sensory inputs using multispectral handheld optoacoustic imaging

Abstract

Keywords

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