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Bubble Dynamics with the Progress of Histotripsy. Yufeng Zhou and Xiaobin Wilson Gao. School of Mechanical & Aerospace Engineering Nanyang Technological University. Introduction. Ultrasound therapy is an emerging modality in clinics;
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Bubble Dynamics with the Progress of Histotripsy Yufeng Zhou and Xiaobin Wilson Gao School of Mechanical & Aerospace Engineering Nanyang Technological University
Introduction • Ultrasound therapy is an emerging modality in clinics; • High-intensity low-duration ultrasound pulse can be implemented in drug delivery, thrombolysis, etc. • Histotripsy can be used to erode soft tissue noninvasively; • Bubble dynamics plays an important role in such application.
Lesion Growth N = 2 N = 1 N = 5 3.3 MHz, 30 ms burst, 1 Hz pulse repetition rate, 150 W N = 50 N = 100 N = 10 N = 20 N = 70
Passive Cavitation Detection 1st pulse 100th pulse 3.3 MHz, 30 ms burst, 1 Hz pulse repetition rate, 150 W output
Effect of Pulse Duration 3.3 MHz, 1 Hz pulse repetition rate, 150 W
Lesion Growth N = 10 N = 5 N = 1 N = 2 1.1 MHz, 100 ms burst, 1 Hz pulse repetition rate, 150 W N = 20 N = 100 N = 70 N = 50
Effect of Frequency 1.1 MHz, 1 Hz pulse repetition rate, 150 W
Ex Vivo Results 3.3 MHz, 1 Hz pulse repetition rate, 150 W
Ex Vivo PCD 3.3 MHz, 1 Hz pulse repetition rate, 150 W output
B-Mode Sonography N = 5 N = 1 N = 100 N = 50 3.3 MHz, 30 ms burst, 1 Hz pulse repetition rate, 150 W output
Conclusions • Characteristics of bubble dynamics vary with the progress of the ultrasound therapy; • Ultrasound parameters (i.e., burst duration, frequency, target type) have great influence on the bubble dynamics, thermal effects, and consequent lesion formation; • Appropriate combination of mechanical and thermal effect would broaden the application; • Monitoring bubble dynamics could control the ultrasound therapy effectively and efficiently.