Wearable bioadhesive ultrasound shear wave elastography

Author(s)

Liu, Hsiao-Chuan; Zeng, Yushun; Gong, Chen; Chen, Xiaoyu; Kijanka, Piotr; Zhang, Junhang; Genyk, Yuri; Tchelepi, Hisham; Wang, Chonghe; Zhou, Qifa; Zhao, Xuanhe; ... Show more Show less

Abstract

Acute liver failure (ALF) is a critical medical condition defined as the rapid development of hepatic dysfunction. Conventional ultrasound elastography cannot continuously monitor liver stiffness over the course of rapidly changing diseases for early detection due to the requirement of a handheld probe. In this study, we introduce wearable bioadhesive ultrasound elastography (BAUS-E), which can generate acoustic radiation force impulse (ARFI) to induce shear waves for the continuous monitoring of modulus changes. BAUS-E contains 128 channels with a compact design with only 24 mm in the azimuth direction for comfortable wearability. We further used BAUS-E to continuously monitor the stiffness of in vivo rat livers with ALF induced by <jats:sc>d</jats:sc> -galactosamine over 48 hours, and the stiffness change was observed within the first 6 hours. BAUS-E holds promise for clinical applications, particularly in patients after organ transplantation or postoperative care in the intensive care unit (ICU).

Date issued

2024-02-09

URI

https://hdl.handle.net/1721.1/154906

Department

Massachusetts Institute of Technology. Department of Mechanical Engineering

Journal

Science Advances

Publisher

American Association for the Advancement of Science (AAAS)

Citation

Liu, Hsiao-Chuan, Zeng, Yushun, Gong, Chen, Chen, Xiaoyu, Kijanka, Piotr et al. 2024. "Wearable bioadhesive ultrasound shear wave elastography." Science Advances, 10 (6).

Version: Final published version