TY - JOUR
T1 - Dual-Modal Fast Photoacoustic/Ultrasound Localization Imaging with Sparsity-Constrained Optimization
AU - Zhao, Shensheng
AU - Paul, Souradip
AU - Yi, Junxi
AU - Chen, Yun Sheng
N1 - The authors are grateful to Bioacoustics Lab for the ultrasound system. Y-S.C. acknowledges support for this study from 1R01DK138939-01 and the Jump ARCHES endowment through the Health Care Engineering Systems Center. S.Z. acknowledges graduate fellowships from the Beckman Institute. The authors acknowledge their previous work [8] in developing and validating this protocol.
PY - 2025/3/20
Y1 - 2025/3/20
N2 - Dual-modal imaging, combining photoacoustic (PA) and ultrasound localization (UL) with microbubbles, holds substantial promise across biomedical fields such as oncology, neuroscience, nephrology, and immunology. The combination of PA and UL imaging faces challenges due to acquisition speed mismatches, limiting their combined efficacy. Here, we introduce a protocol that applies sparsity constraint optimization to accelerate dual-modal data acquisition, enabling in vivo super-resolution imaging of vascular and physiological structures at under two seconds per frame. The protocol provides detailed guidelines for constructing an interleaved PA/UL (PAUL) imaging system, covering material selection, system setup, and calibration, as well as methods for image acquisition, reconstruction, post-processing, and troubleshooting. This approach empowers the biomedical community to establish a rapid, dual-modal PAUL imaging platform, broadening biomedical applications and advancing imaging capabilities in clinical research.
AB - Dual-modal imaging, combining photoacoustic (PA) and ultrasound localization (UL) with microbubbles, holds substantial promise across biomedical fields such as oncology, neuroscience, nephrology, and immunology. The combination of PA and UL imaging faces challenges due to acquisition speed mismatches, limiting their combined efficacy. Here, we introduce a protocol that applies sparsity constraint optimization to accelerate dual-modal data acquisition, enabling in vivo super-resolution imaging of vascular and physiological structures at under two seconds per frame. The protocol provides detailed guidelines for constructing an interleaved PA/UL (PAUL) imaging system, covering material selection, system setup, and calibration, as well as methods for image acquisition, reconstruction, post-processing, and troubleshooting. This approach empowers the biomedical community to establish a rapid, dual-modal PAUL imaging platform, broadening biomedical applications and advancing imaging capabilities in clinical research.
KW - Multimodal imaging
KW - Photoacoustic imaging
KW - Preclinical imaging
KW - Sparsity-constrained optimization
KW - Super-resolution imaging
KW - Ultrasound localization imaging
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U2 - 10.21769/BioProtoc.5247
DO - 10.21769/BioProtoc.5247
M3 - Article
AN - SCOPUS:105000442526
SN - 2331-8325
VL - 15
JO - Bio-protocol
JF - Bio-protocol
IS - 6
M1 - e5247
ER -