TY - JOUR
T1 - On the Importance of Low-Frequency Signals in Functional and Molecular Photoacoustic Computed Tomography
AU - Vu, Tri
AU - Klippel, Paul
AU - Canning, Aidan J.
AU - Ma, Chenshuo
AU - Zhang, Huijuan
AU - Kasatkina, Ludmila A.
AU - Tang, Yuqi
AU - Xia, Jun
AU - Verkhusha, Vladislav V.
AU - Vo-Dinh, Tuan
AU - Jing, Yun
AU - Yao, Junjie
N1 - Publisher Copyright:
© 1982-2012 IEEE.
PY - 2024/2/1
Y1 - 2024/2/1
N2 - In photoacoustic computed tomography (PACT) with short-pulsed laser excitation, wideband acoustic signals are generated in biological tissues with frequencies related to the effective shapes and sizes of the optically absorbing targets. Low-frequency photoacoustic signal components correspond to slowly varying spatial features and are often omitted during imaging due to the limited detection bandwidth of the ultrasound transducer, or during image reconstruction as undesired background that degrades image contrast. Here we demonstrate that low-frequency photoacoustic signals, in fact, contain functional and molecular information, and can be used to enhance structural visibility, improve quantitative accuracy, and reduce spare-sampling artifacts. We provide an in-depth theoretical analysis of low-frequency signals in PACT, and experimentally evaluate their impact on several representative PACT applications, such as mapping temperature in photothermal treatment, measuring blood oxygenation in a hypoxia challenge, and detecting photoswitchable molecular probes in deep organs. Our results strongly suggest that low-frequency signals are important for functional and molecular PACT.
AB - In photoacoustic computed tomography (PACT) with short-pulsed laser excitation, wideband acoustic signals are generated in biological tissues with frequencies related to the effective shapes and sizes of the optically absorbing targets. Low-frequency photoacoustic signal components correspond to slowly varying spatial features and are often omitted during imaging due to the limited detection bandwidth of the ultrasound transducer, or during image reconstruction as undesired background that degrades image contrast. Here we demonstrate that low-frequency photoacoustic signals, in fact, contain functional and molecular information, and can be used to enhance structural visibility, improve quantitative accuracy, and reduce spare-sampling artifacts. We provide an in-depth theoretical analysis of low-frequency signals in PACT, and experimentally evaluate their impact on several representative PACT applications, such as mapping temperature in photothermal treatment, measuring blood oxygenation in a hypoxia challenge, and detecting photoswitchable molecular probes in deep organs. Our results strongly suggest that low-frequency signals are important for functional and molecular PACT.
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U2 - 10.1109/TMI.2023.3320668
DO - 10.1109/TMI.2023.3320668
M3 - Article
C2 - 37773898
AN - SCOPUS:85173111856
SN - 0278-0062
VL - 43
SP - 771
EP - 783
JO - IEEE transactions on medical imaging
JF - IEEE transactions on medical imaging
IS - 2
ER -