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The mechanical effects of microbubble oscillation on elastic vessel wall under ultrasonic excitation with different frequencies using finite element method

机译：有限元法在不同频率超声激发下微泡振荡对弹性血管壁的力学作用

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It was proposed that the bubble-vessel interaction played important role in the blood brain barrier opening associated with microbubble cavitations. The mechanical effects of microbubble oscillation on elastic vessel wall under ultrasonic excitation with different frequencies are studied by numerical simulation using fluid solid interaction. The natural frequency of microbubble oscillation is larger than that in the infinite liquid surroundings. The compressive circumferential stress with magnitude 300 kPa is not likely to induce brain microvessel endothelial lining disruption.

机译：有人认为，气泡与血管的相互作用在与微泡空化有关的血脑屏障开放中起着重要作用。通过流固耦合数值模拟研究了不同频率超声激励下微泡振荡对弹性血管壁的力学作用。微气泡振荡的固有频率大于无限液体环境中的固有频率。大小为300 kPa的圆周压缩应力不太可能引起脑微血管内皮细胞壁破坏。

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《World Congress on Medical Physics and Biomedical Engineering》|2013年|1085-1088|共4页
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Y.Y. Shen; T.F. Wang; S.P. Chen;
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ultrasound; microbubble; finite element method; fluid solid interaction; blood brain barrier;

机译：超声波微泡有限元法固液相互作用血脑屏障;

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1. The natural frequencies of microbubble oscillation in elastic vessels [J] . Sergey Martynov, Eleanor Stride, Nader Saffari The Journal of the Acoustical Society of America . 2009,第6期

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4. The mechanical effects of microbubble oscillation on elastic vessel wall under ultrasonic excitation with different frequencies using finite element method [C] . Y.Y. Shen, T.F. Wang, S.P. Chen World Congress on Medical Physics and Biomedical Engineering . 2013

机译：使用有限元法用不同频率在超声波激发下微泡振动对弹性容器壁的机械效应
5. Analysis of finite element based numerical methods for acoustic waves, elastic waves, and fluid-solid interactions in the frequency domain. [D] . Cummings, Peter Anthony. 2001

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7. Interaction between microbubble and elastic microvessel in low frequency ultrasound field using finite element method [O] . YuanYuan Shen, TianFu Wang, ChienTing Chin, 2012

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The mechanical effects of microbubble oscillation on elastic vessel wall under ultrasonic excitation with different frequencies using finite element method

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