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Optical fiber-based handheld polarized photoacoustic computed tomography for detecting anisotropy of tissues
Author(s) -
Yaguang Ren,
Ying Zhang,
Honghui He,
Liangjian Liu,
Xiaojun Wu,
Liang Song,
Chengbo Liu
Publication year - 2022
Publication title -
quantitative imaging in medicine and surgery
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.766
H-Index - 21
eISSN - 2223-4306
pISSN - 2223-4292
DOI - 10.21037/qims-21-658
Subject(s) - polarizer , optics , anisotropy , polarization (electrochemistry) , excitation , materials science , pact , optoelectronics , physics , birefringence , chemistry , archaeology , quantum mechanics , history
Photoacoustic computed tomography (PACT) is a fast-developing biomedical imaging modality and has immense potential for clinical translation. It utilizes laser excitation and acoustic detection to achieve high spatial resolution and considerable imaging depth in biological tissues. Current PACT primarily treats the absorption coefficient of tissues as a scalar variable while reconstructing the image, which limits its use for anisotropic evaluation of the tissues. Thus, by incorporating polarized imaging methods to evaluate anisotropy, applications of PACT can be further enhanced. So far, dichroism-sensitive PACT has been suggested for polarization detection of biological tissues. However, this approach is unsuitable for intraoperative imaging, since high-power spatial light is needed for excitation, which is dangerous and inconvenient to operate. Thus, there is a need to develop a polarized PACT system suitable for clinical use.

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