Optical observations of microbubble oscillation in small tubes

2009 IEEE International Ultrasonics Symposium Pub Date : 2009-12-01 DOI:10.1109/ULTSYM.2009.5441434

David H. Thomas, V. Sboros, M. Emmer, H. Vos, N. de Jong

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引用次数: 7

Abstract

In diagnostic medicine, microbubbles are used as contrast agents to image blood flow. However, the effect of microvessels surrounding the oscillating microbubbles (MBs) is under investigated. Here, oscillations of Definity (Lantheus Imaging) microbubbles in tubes with inner diameter of 25µm and 200µm are compared in response to low acoustic driving pressure, using the ultrahigh speed Brandaris 128 camera, at frame rates of ∼12 million frames per second. A significant reduction in oscillation was observed for MBs in the smaller 25µm tube, when compared to those in a 200µm tube. In the 25µm tube, at 50kPa an increased incidence of MBs which did not oscillate above the noise level of the system was observed (56% of MBs compared to 8% in the 200µm tube), indicating an increased oscillation damping. Unlike theoretical predictions no significant difference was observed between the resonance frequency curves calculated for MBs in 25µm and 200µm tubes. While previous investigators have shown the effect of microvessels on MB oscillation at high ultrasound pressures, the present study provides the first optical images of low amplitude microbubble oscillations in small tubes.

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小管内微泡振荡的光学观测

在诊断医学中，微泡被用作造影剂来成像血流。然而，微血管对振荡微泡(mb)周围的影响仍在研究中。在这里，使用超高速Brandaris 128相机，以每秒1200万帧的帧率，比较了内径为25µm和200µm的管中Definity (Lantheus Imaging)微泡的振荡对低声驱动压力的响应。与在200µm管中相比，在较小的25µm管中观察到mb的振荡显著减少。在25µm管中，在50kPa时，观察到没有在系统噪声水平以上振荡的mb的发生率增加(56%的mb，而在200µm管中为8%)，表明振荡阻尼增加。与理论预测不同，在25µm和200µm管中计算的mb的共振频率曲线之间没有观察到显着差异。虽然以前的研究人员已经证明了微血管在高超声压力下对MB振荡的影响，但本研究首次提供了小管中低幅度微泡振荡的光学图像。

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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2009 IEEE International Ultrasonics Symposium

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