TY - JOUR
T1 - Real-Time Trimodal Ultrasound, Photoacoustic, and Thermoacoustic Imaging for Biomedical Applications
AU - Reichel, Eric
AU - Tamimi, Ehab
AU - Curiel-Lewandrowski, Clara
AU - Witte, Russell S.
N1 - Funding Information: We would like to acknowledge the Center of Gamma-Ray Imaging (CGRI) at the University of Arizona for the use of their rapid prototype printer which was used for the development of our trimodal imaging system. Funding Information: This work is supported by The Arizona Cancer Center, a gift from Banner Foundation, and DOD grant W81XWH-16-1-0423. Publisher Copyright: © 2021 IEEE.
PY - 2021
Y1 - 2021
N2 - As a real-time high resolution imaging modality, pulse echo ultrasound (US) is a common screening tool for breast, thyroid, and other types of cancer. However, US has low specificity for detecting cancer due to poor contrast in soft tissue. Hybrid US techniques like photoacoustic (PA) and thermoacoustic (TA) imaging provide additional sources of contrast for cancer detection but are still mostly independent research tools not readily available in the clinic. The goal of this study was to develop and demonstrate advantages of a real-time trimodal imaging system that combines US, PA, and TA integrated into a commercial US system. Our trimodal system provided real-time feedback on near-infrared absorbing contrast agents, water content, and acoustic backscatter for structure, all important contrast features for accurate diagnostics and feedback during thermal therapy. Real-time video of the pumped Methylene Blue (MB, 0.025% in diH2O) was captured at a velocity resolution of 280 mm/s. Spectrally probed MB resulted in unique PA spectral responses, as well as qualitative images in false colors. Thermometry revealed a correlation between the PA and TA signal responses and MB temperature each with{R}{2}=0.99. By combining all three modalities, the system is capable of detecting different sources of contrast, including acoustic backscatter (US), optical (PA) and microwave (TA) absorption, and changes in temperature (PA and TA).
AB - As a real-time high resolution imaging modality, pulse echo ultrasound (US) is a common screening tool for breast, thyroid, and other types of cancer. However, US has low specificity for detecting cancer due to poor contrast in soft tissue. Hybrid US techniques like photoacoustic (PA) and thermoacoustic (TA) imaging provide additional sources of contrast for cancer detection but are still mostly independent research tools not readily available in the clinic. The goal of this study was to develop and demonstrate advantages of a real-time trimodal imaging system that combines US, PA, and TA integrated into a commercial US system. Our trimodal system provided real-time feedback on near-infrared absorbing contrast agents, water content, and acoustic backscatter for structure, all important contrast features for accurate diagnostics and feedback during thermal therapy. Real-time video of the pumped Methylene Blue (MB, 0.025% in diH2O) was captured at a velocity resolution of 280 mm/s. Spectrally probed MB resulted in unique PA spectral responses, as well as qualitative images in false colors. Thermometry revealed a correlation between the PA and TA signal responses and MB temperature each with{R}{2}=0.99. By combining all three modalities, the system is capable of detecting different sources of contrast, including acoustic backscatter (US), optical (PA) and microwave (TA) absorption, and changes in temperature (PA and TA).
KW - Guided Therapy
KW - Photoacoustic
KW - Thermoacoustic
KW - Thermometry
KW - multi-modal
KW - real-time
KW - trimodal
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U2 - 10.1109/IUS52206.2021.9593300
DO - 10.1109/IUS52206.2021.9593300
M3 - Conference article
SN - 1948-5719
JO - IEEE International Ultrasonics Symposium, IUS
JF - IEEE International Ultrasonics Symposium, IUS
T2 - 2021 IEEE International Ultrasonics Symposium, IUS 2021
Y2 - 11 September 2011 through 16 September 2011
ER -