使用剪切波成像技术定量评估动脉壁生物力学特性。

Quantitative assessment of arterial wall biomechanical properties using shear wave imaging.

机构信息

SuperSonic Imagine, Aix en Provence, France.

出版信息

Ultrasound Med Biol. 2010 Oct;36(10):1662-76. doi: 10.1016/j.ultrasmedbio.2010.07.004.

DOI:10.1016/j.ultrasmedbio.2010.07.004

PMID:20800942

Abstract

A new ultrasound-based technique is proposed to assess the arterial stiffness: the radiation force of an ultrasonic beam focused on the arterial wall induces a transient shear wave (∼10 ms) whose propagation is tracked by ultrafast imaging. The large and high-frequency content (100 to 1500 Hz) of the induced wave enables studying the wave dispersion, which is shown experimentally in vitro and numerically to be linked to arterial wall stiffness and geometry. The proposed method is applied in vivo. By repeating the acquisition up to 10 times per second (theoretical maximal frame rate is ∼100 Hz), it is possible to assess in vivo the arterial wall elasticity dynamics: shear modulus of a healthy volunteer carotid wall is shown to vary strongly during the cardiac cycle and measured to be 130 ± 15 kPa in systole and 80 ± 10 kPa in diastole.

摘要

一种新的基于超声的技术被提出用于评估动脉僵硬度

聚焦在动脉壁上的超声束的辐射力会产生一个短暂的剪切波（约 10 毫秒），超快成像可以跟踪其传播。所产生的波的大的和高频内容（100 到 1500 赫兹）使得可以研究波的频散，这在体外实验和数值上都表明与动脉壁的刚度和几何形状有关。所提出的方法在体内进行应用。通过每秒重复采集多达 10 次（理论最大帧率约为 100 Hz），可以评估体内动脉壁弹性的动态变化：健康志愿者颈动脉壁的剪切模量在心动周期中变化很大，在收缩期测量为 130 ± 15 kPa，在舒张期测量为 80 ± 10 kPa。

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使用剪切波成像技术定量评估动脉壁生物力学特性。

Quantitative assessment of arterial wall biomechanical properties using shear wave imaging.

机构信息

出版信息

一种新的基于超声的技术被提出用于评估动脉僵硬度

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