Triplex radiometric, photoacoustic, and ultrasonic imaging based on single-pulse excitation

In this Letter, we propose a novel triplex-parameter detection method to realize simultaneous radiometric, photoacoustic, and ultrasonic imaging based on single-pulse excitation. The optical attenuation, optical absorption, and acoustic impedance properties can be obtained simultaneously by analyzin...

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Veröffentlicht in:	Optics letters 2020-04, Vol.45 (7), p.1703-1706
Hauptverfasser:	Zhao, Yue, Wang, Siqi, Merrill, John A, Arellano, Jesus D, Trevisi, Luis M, Li, Yizhou, Xiang, Liangzhong, Qu, Junle, Liu, Liwei
Format:	Artikel
Sprache:	eng
Schlagworte:	Absorptivity Acoustic absorption Acoustic attenuation Acoustic impedance Acoustic properties Animals Cartilage Ear - diagnostic imaging Excitation Imaging Optical Phenomena Optical properties Photoacoustic Techniques - methods Radiometry Swine Tissues Ultrasonic attenuation Ultrasonic imaging Ultrasonic testing Ultrasonography - methods
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container_issue	7
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container_title	Optics letters
container_volume	45
creator	Zhao, Yue Wang, Siqi Merrill, John A Arellano, Jesus D Trevisi, Luis M Li, Yizhou Xiang, Liangzhong Qu, Junle Liu, Liwei
description	In this Letter, we propose a novel triplex-parameter detection method to realize simultaneous radiometric, photoacoustic, and ultrasonic imaging based on single-pulse excitation. The optical attenuation, optical absorption, and acoustic impedance properties can be obtained simultaneously by analyzing the photoacoustic signals and the ultrasonic echo signals. To test the feasibility and accuracy of this method, agar phantoms with different absorption coefficients and elastic coefficients were measured. Then, this method was experimentally verified by imaging a leaf skeleton piece embedded in an agar cylinder. Furthermore, pilot experiments were performed by triplex imaging of pig ear tissue ex vivo to characterize the cartilage and surrounding tissue. Experimental results demonstrated that this technique has future potentials for visualizing and providing the functional and structural information of biological tissues.
doi_str_mv	10.1364/OL.387501
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subjects	Absorptivity Acoustic absorption Acoustic attenuation Acoustic impedance Acoustic properties Animals Cartilage Ear - diagnostic imaging Excitation Imaging Optical Phenomena Optical properties Photoacoustic Techniques - methods Radiometry Swine Tissues Ultrasonic attenuation Ultrasonic imaging Ultrasonic testing Ultrasonography - methods
title	Triplex radiometric, photoacoustic, and ultrasonic imaging based on single-pulse excitation
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