1. Super Wide-Field Photoacoustic Microscopy of Animals and Humans In Vivo.
- Author
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Baik, Jin Woo, Kim, Jin Young, Cho, Seonghee, Choi, Seongwook, Kim, Jongbeom, and Kim, Chulhong
- Subjects
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STEPPING motors , *MICROELECTROMECHANICAL systems , *ADRENERGIC receptors , *MICROSCOPY , *OPTICAL resolution , *TISSUES , *PHOTOACOUSTIC spectroscopy , *FINGERS - Abstract
Acoustic-resolution photoacoustic micro-scopy (AR-PAM) is an emerging biomedical imaging modality that combines superior optical sensitivity and fine ultrasonic resolution in an optical quasi-diffusive regime (~1–3 mm in tissues). AR-PAM has been explored for anatomical, functional, and molecular information in biological tissues. Heretofore, AR-PAM systems have suffered from a limited field-of-view (FOV) and/or slow imaging speed, which have precluded them from routine preclinical and clinical applications. Here, we demonstrate an advanced AR-PAM system that overcomes both limitations of previous AR-PAM systems. The new AR-PAM system demonstrates a super wide-field scanning that utilized a 1-axis water-proofing microelectromechanical systems (MEMS) scanner integrated with two linear stepper motor stages. We achieved an extended FOV of 36 × 80 mm2 by mosaicking multiple volumetric images of 36 × 2.5 mm2 with a total acquisition time of 224 seconds. For one volumetric data (i.e., 36 × 2.5 mm2), the B-scan imaging speed over the short axis (i.e., 2.5 mm) was 83 Hz in humans. The 3D volumetric image was also provided by using MEMS mirror scanning along the X-axis and stepper-motor scanning along the Y-axis. The super-wide FOV mosaic image was realized by registering and merging all individual volumetric images. Finally, we obtained multi-plane whole-body in-vivo PA images of small animals, illustrating distinct multi-layered structures including microvascular networks and internal organs. Importantly, we also visualized microvascular networks in human fingers, palm, and forearm successfully. This advanced MEMS-AR-PAM system could potentially enable hitherto not possible wide preclinical and clinical applications. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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