In vivo functional brain imaging by using a broadband fiber optic photoacoustic probe

Huan Liu; Yizhi Liang; Long Jin; Lidai Wang; Bai-Ou Guan

doi:10.1364/OFS.2020.Th1.2

In vivo functional brain imaging by using a broadband fiber optic photoacoustic probe

Huan Liu, Yizhi Liang^*, Long Jin^*, Lidai Wang, Bai-Ou Guan

^*Corresponding author for this work

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 32 - Refereed conference paper (with host publication) › peer-review

Abstract

Oxygen saturation (sO₂) imaging can offer useful information for pathological studies and clinical diagnostics. Here we report on a fiber-based photoacoustic microscope for functional brain imaging. The critical element is a fiber-optic ultrasound sensor, which translates the megahertz acoustic waves into detectable lasing frequency variations. Its working bandwidth has been extended to 40 MHz, by reducing the fiber diameter to 58 μm via chemical etching. As a result, in vivo sO₂ imaging of a mouse brain can be performed by using a dual-wavelength excitation scheme, taking advantage of the difference in the absorption spectrum between the oxygenated (HbO₂) and deoxygenated hemoglobin (HbR). The broadband ultrasound detection can effectively overcome the saturation effect originated from the strong optical absorption. The fiber optic photoacoustic probe paves the way for the implementation of a light-weight, wearable brain imager for awake, freely-moving animals.

Original language	English
Title of host publication	Optical Fiber Sensors Conference 2020 Special Edition
Publisher	Optica Publishing Group
ISBN (Print)	978-1-55752-307-5
DOIs	https://doi.org/10.1364/OFS.2020.Th1.2
Publication status	Published - Jun 2020
Event	27th International Conference on Optical Fiber Sensors, OFS 2020 - Washington, United States Duration: 8 Jun 2020 → 12 Jun 2020

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Name	Optics InfoBase Conference Papers

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Conference	27th International Conference on Optical Fiber Sensors, OFS 2020
Place	United States
City	Washington
Period	8/06/20 → 12/06/20

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10.1364/OFS.2020.Th1.2

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@inproceedings{b8b627ae2ece43f4baec53f66e06a360,

title = "In vivo functional brain imaging by using a broadband fiber optic photoacoustic probe",

abstract = "Oxygen saturation (sO2) imaging can offer useful information for pathological studies and clinical diagnostics. Here we report on a fiber-based photoacoustic microscope for functional brain imaging. The critical element is a fiber-optic ultrasound sensor, which translates the megahertz acoustic waves into detectable lasing frequency variations. Its working bandwidth has been extended to 40 MHz, by reducing the fiber diameter to 58 μm via chemical etching. As a result, in vivo sO2 imaging of a mouse brain can be performed by using a dual-wavelength excitation scheme, taking advantage of the difference in the absorption spectrum between the oxygenated (HbO2) and deoxygenated hemoglobin (HbR). The broadband ultrasound detection can effectively overcome the saturation effect originated from the strong optical absorption. The fiber optic photoacoustic probe paves the way for the implementation of a light-weight, wearable brain imager for awake, freely-moving animals.",

author = "Huan Liu and Yizhi Liang and Long Jin and Lidai Wang and Bai-Ou Guan",

year = "2020",

month = jun,

doi = "10.1364/OFS.2020.Th1.2",

language = "English",

isbn = "978-1-55752-307-5",

series = "Optics InfoBase Conference Papers",

publisher = "Optica Publishing Group",

booktitle = "Optical Fiber Sensors Conference 2020 Special Edition",

address = "United States",

note = "27th International Conference on Optical Fiber Sensors, OFS 2020 ; Conference date: 08-06-2020 Through 12-06-2020",

}

Liu, H, Liang, Y, Jin, L, Wang, L & Guan, B-O 2020, In vivo functional brain imaging by using a broadband fiber optic photoacoustic probe. in Optical Fiber Sensors Conference 2020 Special Edition., Th1.2, Optics InfoBase Conference Papers, Optica Publishing Group, 27th International Conference on Optical Fiber Sensors, OFS 2020, Washington, United States, 8/06/20. https://doi.org/10.1364/OFS.2020.Th1.2

In vivo functional brain imaging by using a broadband fiber optic photoacoustic probe. / Liu, Huan; Liang, Yizhi; Jin, Long et al.
Optical Fiber Sensors Conference 2020 Special Edition. Optica Publishing Group, 2020. Th1.2 (Optics InfoBase Conference Papers).

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 32 - Refereed conference paper (with host publication) › peer-review

TY - GEN

T1 - In vivo functional brain imaging by using a broadband fiber optic photoacoustic probe

AU - Liu, Huan

AU - Liang, Yizhi

AU - Jin, Long

AU - Wang, Lidai

AU - Guan, Bai-Ou

PY - 2020/6

Y1 - 2020/6

N2 - Oxygen saturation (sO2) imaging can offer useful information for pathological studies and clinical diagnostics. Here we report on a fiber-based photoacoustic microscope for functional brain imaging. The critical element is a fiber-optic ultrasound sensor, which translates the megahertz acoustic waves into detectable lasing frequency variations. Its working bandwidth has been extended to 40 MHz, by reducing the fiber diameter to 58 μm via chemical etching. As a result, in vivo sO2 imaging of a mouse brain can be performed by using a dual-wavelength excitation scheme, taking advantage of the difference in the absorption spectrum between the oxygenated (HbO2) and deoxygenated hemoglobin (HbR). The broadband ultrasound detection can effectively overcome the saturation effect originated from the strong optical absorption. The fiber optic photoacoustic probe paves the way for the implementation of a light-weight, wearable brain imager for awake, freely-moving animals.

AB - Oxygen saturation (sO2) imaging can offer useful information for pathological studies and clinical diagnostics. Here we report on a fiber-based photoacoustic microscope for functional brain imaging. The critical element is a fiber-optic ultrasound sensor, which translates the megahertz acoustic waves into detectable lasing frequency variations. Its working bandwidth has been extended to 40 MHz, by reducing the fiber diameter to 58 μm via chemical etching. As a result, in vivo sO2 imaging of a mouse brain can be performed by using a dual-wavelength excitation scheme, taking advantage of the difference in the absorption spectrum between the oxygenated (HbO2) and deoxygenated hemoglobin (HbR). The broadband ultrasound detection can effectively overcome the saturation effect originated from the strong optical absorption. The fiber optic photoacoustic probe paves the way for the implementation of a light-weight, wearable brain imager for awake, freely-moving animals.

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U2 - 10.1364/OFS.2020.Th1.2

DO - 10.1364/OFS.2020.Th1.2

M3 - RGC 32 - Refereed conference paper (with host publication)

SN - 978-1-55752-307-5

T3 - Optics InfoBase Conference Papers

BT - Optical Fiber Sensors Conference 2020 Special Edition

PB - Optica Publishing Group

T2 - 27th International Conference on Optical Fiber Sensors, OFS 2020

Y2 - 8 June 2020 through 12 June 2020

ER -

In vivo functional brain imaging by using a broadband fiber optic photoacoustic probe

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