Effects of cavitation-enhanced heating in high-intensity focused ultrasound treatment on shear wave imaging

Ryosuke Iwasaki; Ryo Nagaoka; Ryo Takagi; Kota Goto; Shin Yoshizawa; Yoshifumi Saijo; Shin Ichiro Umemura

doi:10.7567/JJAP.54.07HF11

Effects of cavitation-enhanced heating in high-intensity focused ultrasound treatment on shear wave imaging

Ryosuke Iwasaki, Ryo Nagaoka, Ryo Takagi, Kota Goto, Shin Yoshizawa, Yoshifumi Saijo, Shin Ichiro Umemura

Tohoku University

Research output: Contribution to journal › Article › peer-review

20 Citations (Scopus)

Abstract

High-intensity focused ultrasound (HIFU) therapy is a less invasive method of cancer treatment, in which ultrasound is generated outside the body and focused at the tumor tissue to be thermally coagulated. To enhance the safety, accuracy, and efficiency of HIFU therapy, "multiple-triggered HIFU" has been proposed as a method of cavitation-enhanced heating to shorten treatment time. In this study, we also propose shear wave elastography (SWE) to noninvasively monitor the cavitation-enhanced heating. Results show that the increase in shear wave velocity was observed in the coagulation area, but it was significantly slower when cavitation occurred. This suggests that the cavitation-enhanced heating requires a significantly longer cooling time before the accurate measurement of shear modulus than heating without generating bubbles.

Original language	English
Article number	07HF11
Journal	Japanese Journal of Applied Physics
Volume	54
Issue number	7
DOIs	https://doi.org/10.7567/JJAP.54.07HF11
Publication status	Published - 2015 Jul 1

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abstract = "High-intensity focused ultrasound (HIFU) therapy is a less invasive method of cancer treatment, in which ultrasound is generated outside the body and focused at the tumor tissue to be thermally coagulated. To enhance the safety, accuracy, and efficiency of HIFU therapy, {"}multiple-triggered HIFU{"} has been proposed as a method of cavitation-enhanced heating to shorten treatment time. In this study, we also propose shear wave elastography (SWE) to noninvasively monitor the cavitation-enhanced heating. Results show that the increase in shear wave velocity was observed in the coagulation area, but it was significantly slower when cavitation occurred. This suggests that the cavitation-enhanced heating requires a significantly longer cooling time before the accurate measurement of shear modulus than heating without generating bubbles.",

author = "Ryosuke Iwasaki and Ryo Nagaoka and Ryo Takagi and Kota Goto and Shin Yoshizawa and Yoshifumi Saijo and Umemura, {Shin Ichiro}",

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AU - Iwasaki, Ryosuke

AU - Nagaoka, Ryo

AU - Takagi, Ryo

AU - Goto, Kota

AU - Yoshizawa, Shin

AU - Saijo, Yoshifumi

AU - Umemura, Shin Ichiro

PY - 2015/7/1

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AB - High-intensity focused ultrasound (HIFU) therapy is a less invasive method of cancer treatment, in which ultrasound is generated outside the body and focused at the tumor tissue to be thermally coagulated. To enhance the safety, accuracy, and efficiency of HIFU therapy, "multiple-triggered HIFU" has been proposed as a method of cavitation-enhanced heating to shorten treatment time. In this study, we also propose shear wave elastography (SWE) to noninvasively monitor the cavitation-enhanced heating. Results show that the increase in shear wave velocity was observed in the coagulation area, but it was significantly slower when cavitation occurred. This suggests that the cavitation-enhanced heating requires a significantly longer cooling time before the accurate measurement of shear modulus than heating without generating bubbles.

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Effects of cavitation-enhanced heating in high-intensity focused ultrasound treatment on shear wave imaging

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