利用快速超声成像测量局部脉冲波速

2020 IEEE International Symposium on Medical Measurements and Applications (MeMeA) Pub Date : 2020-06-01 DOI:10.1109/MeMeA49120.2020.9137345

Kumar Abhinav Singh, A. Sahani

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引用次数: 0

摘要

颈动脉到股动脉脉波速度(cfPWV)被认为是动脉硬度的金标准。我们假设局部脉冲波速度(LPWV)可能是cfPWV的密切替代品。目前测量cfPWV的方法是侵入性的，不方便的，需要人工测量颈-股距离。虽然其他动脉硬度测量可以通过超声成像完成，但cfPWV需要单独的专用设备。在本文中，我们提供了在快速超声框架上测量LPWV的可能性的概念证明。我们使用Verasonics®Vantage-256研究超声系统以每秒750帧以上的帧率获得颈动脉纵向帧。从这些纵向框架的两端得到直径波形。这些波形之间的微小时移用于计算波形从颈动脉一端到另一端的飞行时间。利用波束形成帧上已知的像素间距离来计算LPWV。对五名志愿者进行了测量，发现统计上与使用sphygmoor测量的cfPWV相等。

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Measurement of Local Pulse Wave Velocity using Fast Ultrasound Imaging

Carotid to femoral pulse wave velocity (cfPWV) is considered as the gold standard of arterial stiffness. We hypothesize that local pulse wave velocity (LPWV) may be a close surrogate of the cfPWV. Current method of measuring cfPWV is intrusive, inconvenient and requires manual measurement of carotid-femoral distance. While other measures of arterial stiffness can be done using ultrasound imaging, cfPWV required separate specialized equipment. In this paper, we provide a proof of concept of possibility of measuring LPWV on fast ultrasound frames. We used Verasonics® Vantage-256 Research ultrasound system to obtain longitudinal carotid frames at a frame rate of more than 750 frames per second. Diameter waveforms are obtained from two ends of these longitudinal frames. The minute time shift between these waveforms is used to calculate the time of flight of the waveform from one end of the carotid to other. The known distance between pixels on beamformed frames are used to calculate the LPWV. Measurements for five human volunteers were obtained which were found to statistically equal to the cfPWV measured using SphygmoCor.

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2020 IEEE International Symposium on Medical Measurements and Applications (MeMeA)

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