使用新型球囊模型对组织多普勒左心室区域壁速度进行体外验证。

Y Wu, T Irvine, Y Mori, X Li, D J Sahn
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引用次数: 0

摘要

为了研究使用新型气球模型进行组织多普勒成像(TDI)的有效性和准确性,已通过传统 M 模式图像对 TDI 心肌速度测量进行了间接验证。然而,这并不是真正独立的金标准。我们介绍了一种新的 TDI 验证方法,该方法使用专门开发的左心室球囊模型,该模型安装在水浴中,由两个梨形球囊构成。该模型与脉冲流量泵相连,每搏流量为 8 次(50-85 毫升/搏动)。球囊壁的位移和速度通过视频成像和 TDI 同时记录,视频成像和 TDI 使用 GE-Vingmed System Five 系统,该系统配备 5 MHz 相控阵探头,具有最高帧频。传统的 M 模式和二维成像验证了我们的球囊模型模拟了左心室的形状和室壁运动。模型前壁和后壁的最大视频偏移量与 TDI 数字距离数据的时间整合结果之间存在良好的相关性和一致性(前壁:r = 0.97,SEE = 0.24 mm,平均 +/- s = 0.04 +/- 0.24 mm;后壁:r = 0.95,SEE = 0.22 mm,平均 +/- s = 0.03 +/- 0.24 mm)。用 TDI 方法分析速度曲线显示,每个测量点的速度与视频图像获得的速度有很好的相关性(前壁:r = 0.97,SEE = 0.30 mm,平均 +/- s = -0.04 +/- 0.28 mm;后壁:r = 0.97,SEE = 0.30 mm,平均 +/- s = 0.04 +/- 0.28 mm)。我们的球囊模型为 TDI 数据的验证提供了一种新的独立方法。这项研究表明,目前的 TDI 系统在测量室壁运动距离和速度方面是可靠的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
In vitro validation of tissue Doppler left ventricular regional wall velocities by using a novel balloon phantom.

To investigate the validity and accuracy of tissue Doppler imaging (TDI) using a novel balloon phantom, validation of TDI myocardial velocity measurements has been carried out indirectly from conventional M-mode images. However it is not a true and independent gold standard. We described a new TDI validation method by using a specially developed left ventricular balloon model mounted in a water bath and constructed using two pear-shaped balloons. It was connected to a pulsatile flow pump at 8 stroke volumes (50-85 ml/beat). The displacement and velocity of the balloon walls were recorded simultaneously by video imaging and TDI on a GE-Vingmed System Five with a 5 MHz phased array probe at the highest frame rates available. Conventional M-mode and 2-D imaging verified that our balloon model mimicked the shape and wall motion of left ventricle. There was a good correlation and agreement between the maximum video excursion of the anterior and posterior walls of the phantom and the results of the temporal integration of digital distance data by TDI (Anterior wall: r = 0.97, SEE = 0.24 mm, mean +/- s = 0.04 +/- 0.24 mm; Posterior wall: r = 0.95, SEE = 0.22 mm, mean +/- s = 0.03 +/- 0.24 mm). Analysis of the velocity profile by the TDI method showed that the velocity at each measured point was correlated well with the velocity obtained from the video images (Anterior wall: r = 0.97, SEE = 0.30 mm, mean +/- s = -0.04 +/- 0.28 mm; Posterior wall: r = 0.97, SEE = 0.30 mm, mean +/- s = 0.04 +/- 0.28 mm). Our balloon model provided a new independent method for the validation of TDI data. This study demonstrated that the present TDI system is reliable for measuring wall motion distance and velocity.

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