脂肪和纤维化作为肝脏粘弹性测量中的混杂辅助因素。

Fat and fibrosis as confounding cofactors in viscoelastic measurements of the liver.

作者信息

Poul S S, Parker K J

机构信息

Department of Mechanical Engineering, University of Rochester, 235 Hopeman Building, Box 270132, Rochester, NY, United States of America.

Department of Electrical and Computer Engineering, University of Rochester, 724 Computer Studies Building, Box 270231, Rochester, NY 14627, United States of America.

出版信息

Phys Med Biol. 2021 Feb 11;66(4):045024. doi: 10.1088/1361-6560/abd593.

DOI:10.1088/1361-6560/abd593

PMID:33348325

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8064273/

Abstract

Elastography provides significant information on staging of fibrosis in patients with liver disease and may be of some value in assessing steatosis. However, there remain questions as to the role of steatosis and fibrosis as cofactors influencing the viscoelastic measurements of liver tissues, particularly shear wave speed (SWS) and shear wave attenuation (SWA). In this study, by employing the theory of composite elastic media as well as two independent experimental measurements on oil-in-gelatin phantoms and also finite element simulations, it is consistently shown that fat and fibrosis jointly influence the SWS and SWA measurements. At a constant level of fat, fibrosis stages can influence the SWA by factors of 2-4. Moreover, the rate of increase in SWA with increasing fat is strongly influenced by the stages of fibrosis; softer background cases (low fibrosis stages) have higher rate of SWA increase with fat than those with stiffer moduli (higher fibrosis stages). Meanwhile, SWS results are influenced by the presence of fat, however the degree of variability is more subtle. The results indicate the importance of jointly considering fat and fibrosis as contributors to SWS and SWA measurements in complex liver tissues and in the design and interpretation of clinical trials.

摘要

弹性成像可为肝病患者的纤维化分期提供重要信息，在评估肝脂肪变性方面可能也有一定价值。然而，关于脂肪变性和纤维化作为影响肝组织粘弹性测量（尤其是剪切波速度（SWS）和剪切波衰减（SWA））的辅助因素所起的作用，仍存在一些问题。在本研究中，通过运用复合弹性介质理论以及对明胶包油模型进行的两项独立实验测量，并结合有限元模拟，一致表明脂肪和纤维化共同影响SWS和SWA测量。在脂肪含量恒定的情况下，纤维化分期可使SWA增加2至4倍。此外，SWA随脂肪增加的速率受纤维化分期的强烈影响；背景较软的情况（低纤维化分期）中，SWA随脂肪增加的速率高于模量较硬（高纤维化分期）的情况。同时，SWS结果受脂肪存在的影响，不过变化程度较为细微。结果表明，在复杂肝组织中以及在临床试验的设计和解读中，联合考虑脂肪和纤维化对SWS和SWA测量的影响具有重要意义。

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