Real-Time Detection and Synergistic Effect of Acoustic Cavitation Excited by Pulse HIFU Based on Self-Sensing Ultrasound

IF 0.9 4区物理与天体物理 Q4 ACOUSTICS Acoustical Physics Pub Date : 2024-09-18 DOI:10.1134/S1063771024601389

Y. Xu, C. Liu, Q. Cao, Y. Li

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Abstract

High-intensity focused ultrasound (HIFU) is widely used in the treatment of benign and malignant tumors due to its advantages of noninvasiveness and high therapeutic efficiency. However, how to improve the efficiency of heat deposition in a short period of time is a key problem during HIFU thermal ablation. The acoustic cavitation excited by pulse HIFU has been proven to achieve HIFU efficiency enhancement. However, the real-time monitoring of acoustic cavitation is still an issue. In this study, a real-time detection method of acoustic cavitation is established based on self-sensing ultrasound, and the synergistic effect of acoustic cavitation excited by pulse HIFU is researched. The influences of the output power, pulse duration, irradiation depth on cavitation duration are respectively discussed by using the established cavitation detection method compared passive cavitation detection (PCD). The relationship between cavitation intensity and synergistic effect is discussed. The results have shown that the cavitation detection can real-time measure cavitation duration compared with PCD. In addition, during the cavitation detection of pulse HIFU, the synergistic effect of acoustic cavitation is obvious in HIFU ablation.

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基于自感超声的脉冲 HIFU 激发声空化的实时检测和协同效应

摘要高强度聚焦超声（HIFU）具有无创、治疗效率高等优点，被广泛应用于良性和恶性肿瘤的治疗。然而，如何在短时间内提高热沉积效率是 HIFU 热消融过程中的一个关键问题。脉冲 HIFU 激发的声空化已被证实可以实现 HIFU 效率的提高。然而，如何实时监测声空化仍是一个问题。本研究建立了一种基于自感超声的声空化实时检测方法，并研究了脉冲 HIFU 激发声空化的协同效应。与被动空化检测（PCD）相比，利用已建立的空化检测方法分别讨论了输出功率、脉冲持续时间、照射深度对空化持续时间的影响。讨论了空化强度与协同效应之间的关系。结果表明，与 PCD 相比，空化检测能实时测量空化持续时间。此外，在脉冲 HIFU 的空化检测过程中，声空化的协同效应在 HIFU 消融中非常明显。

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来源期刊

Acoustical Physics 物理-声学

CiteScore

1.60

自引率

50.00%

发文量

审稿时长

3.5 months

期刊介绍： Acoustical Physics is an international peer reviewed journal published with the participation of the Russian Academy of Sciences. It covers theoretical and experimental aspects of basic and applied acoustics: classical problems of linear acoustics and wave theory; nonlinear acoustics; physical acoustics; ocean acoustics and hydroacoustics; atmospheric and aeroacoustics; acoustics of structurally inhomogeneous solids; geological acoustics; acoustical ecology, noise and vibration; chamber acoustics, musical acoustics; acoustic signals processing, computer simulations; acoustics of living systems, biomedical acoustics; physical principles of engineering acoustics. The journal publishes critical reviews, original articles, short communications, and letters to the editor. It covers theoretical and experimental aspects of basic and applied acoustics. The journal welcomes manuscripts from all countries in the English or Russian language.