Focused ultrasound effects on blood vessels in vivo-limits for vascular interventions

2000 IEEE Ultrasonics Symposium. Proceedings. An International Symposium (Cat. No.00CH37121) Pub Date : 2000-10-22 DOI:10.1109/ULTSYM.2000.921585

K. Mahoney, H. Martin, K. Hynynen

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引用次数: 10

Abstract

The main ear vessels, both artery and vein, of 22 New Zealand white rabbits were sonicated. Pulsed ultrasound with RF power levels from 50 to 900 W and burst durations of 10 s were used. Pulse repetition frequency was varied from 5 to 20 Hz and total sonication duration from 10 to 180 s. Transducer operating frequencies of 0.68 and 2.02 MHz were used. Sonications were performed with normal flow through the vessel except for experiments to study the effect of ultrasound contrast agent, which were performed on clamped vessels. In all experiments the animals were followed 1-3 h after sonications before sacrificing and harvesting the tissue samples. Most sonications caused constriction of the artery even at the lowest power. At 0.68 MHz vessel rupture was also seen. At 2.02 MHz the main damage mechanism in the vessels and surrounding tissues is thermal coagulation. Both the arteries and veins are constricted or occluded often without rupture of the vessel wall. The injection of the contrast agent caused the veins to constrict at a lower power level than without it.

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聚焦超声对血管干预的体内限制效应

对22只新西兰大白兔的主要耳血管(动脉和静脉)进行超声检查。使用射频功率为50 ~ 900 W，脉冲持续时间为10 s的脉冲超声。脉冲重复频率为5 ~ 20 Hz，总超声持续时间为10 ~ 180 s。换能器工作频率分别为0.68和2.02 MHz。除了研究超声造影剂作用的实验外，超声检查是在夹紧的血管上进行的。在所有实验中，动物在超声后1-3小时进行随访，然后牺牲并收获组织样本。大多数超声即使在最低功率下也会引起动脉收缩。在0.68 MHz时也可见血管破裂。在2.02 MHz时，血管和周围组织的主要损伤机制是热凝。动脉和静脉都收缩或闭塞，通常没有血管壁破裂。注射造影剂后，静脉收缩的强度比没有注射造影剂时要低。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2000 IEEE Ultrasonics Symposium. Proceedings. An International Symposium (Cat. No.00CH37121)

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