Estimation of model parameters characterizing dispersion in ARFI induced shear waves in in vivo human liver

2014 IEEE International Ultrasonics Symposium Pub Date : 2014-10-23 DOI:10.1109/ULTSYM.2014.0241

N. Rouze, M. Palmeri, K. Nightingale

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引用次数: 3

Abstract

We consider the analysis of shear wave dispersion following ARFI excitation in a cohort of 135 Non-Alcoholic Fatty Liver Disease patients traditionally characterized as “difficult-to-image.” Three analysis methods are considered: (1) measuring k(ω) by locating the maximum signal from the two-dimensional Fourier transform (2D-FT) of propagating shear wave data, (2) an extension of this method using model-based sums through 2D-FT data, and (3) shear wave spectroscopy. A linear dispersion model is used to characterize the frequency-dependent phase velocity. The analysis methods are evaluated in terms of robustness as determined by the rate of successful measurements in the patient data, and by the degrees of correlation and bias inherent with each method as determined by viscoelastic FEM validation studies. For these patient data and analysis procedures, although the 2D-FT methods are more robust than the shear wave spectroscopy method, they are also systematically biased. Even so, they can be used can be used to characterize the relative viscoelastic properties of liver.

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ARFI诱导的人体肝脏横波弥散模型参数的估计

我们考虑分析135例传统特征为“难以成像”的非酒精性脂肪肝患者ARFI激发后的横波色散。本文考虑了三种分析方法:(1)通过定位传播剪切波数据的二维傅里叶变换(2D-FT)的最大信号来测量k(ω)，(2)通过二维傅里叶变换数据使用基于模型的求和对该方法进行扩展，以及(3)剪切波光谱。采用线性色散模型来描述与频率相关的相速度。分析方法是根据稳健性来评估的，这是由患者数据中成功测量的比率决定的，以及由粘弹性有限元验证研究确定的每种方法固有的相关性和偏倚程度来评估的。对于这些患者数据和分析程序，尽管2D-FT方法比剪切波光谱方法更稳健，但它们也存在系统偏差。即便如此，它们仍然可以用来表征肝脏的相对粘弹性。

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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2014 IEEE International Ultrasonics Symposium

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