压力对微气泡心内反向散射的影响

Y Deng, C Li, Q Chang
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引用次数: 0

摘要

在体外搏动性心脏模型中使用声密度计分析了声化白蛋白微气泡(Albunex)的反向散射,以评估压力对 Albunex 反向散射的影响,并分析了 16 名健康人的声化白蛋白微气泡心内反向散射的心动周期变化。研究发现,Albunex 微气泡在收缩期被压缩,在舒张期被减压,从而导致心动周期中的反向散射发生相应的变化。虽然舒张期和收缩期的反向散射强度与微泡浓度有关,但微泡浓度对舒张末和收缩末反向散射的差异没有影响。反向散射差值与收缩末压高度相关(r = 0.96,P = 0.001)。在人体研究中,我们也观察到超声白蛋白微气泡的反向散射在心内发生同样的周期性变化。我们的研究表明,通过声学密度计分析微气泡的心内后向散射,可以无创评估心内压。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of pressure on intracardiac backscatter from microbubbles.

The backscatter from sonicated albumin microbubbles (Albunex) was analyzed using acoustic densitometry in an in vitro pulsatile heart model to evaluate the effects of pressure on the backscatter from Albunex, and the cardiac cyclic changes of intracardiac backscatter from sonicated albumin microbubbles in 16 healthy persons were analyzed. It was found that the Albunex microbubbles were compressed in systole and decompressed in diastole, causing corresponding changes of backscatter in cardiac cycle. Although the intensities of backscatter in diastole and systole were related to the concentration of microbubbles, the concentration of microbubbles had no effect on the difference of end-diastolic and end-systolic backscatter. The difference of the backscatter was highly correlated with end-systolic pressure (r = 0.96, P = 0.001). In human studies, we also observed same intracardiac cyclic changes of backscatter from sonicated albumin microbubbles. Our study indicates that it is possible to evaluate the intracardiac pressure non-invasively by analyzing the intracardiac backscatter from the microbubbles with acoustic densitometry.

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