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Viscoelasticity and shear wave velocity of liver tissue evaluated by dynamic mechanical analysis

机译：动态力学分析评价肝组织的粘弹性和剪切波速度

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The frequency dependence of shear wave velocity provides significant information for evaluating viscoelastic character of tissue relating to liver fibrosis. Although Voigt model has been often used in viscoelastic analysis, several studies showed that the frequency dependence measured by dynamic mechanical analysis (DMA) test was not consistent with the theoretical prediction. To experimentally investigate the relationships of the change of the tissue structure and the viscoelasticity of tissue, the shear wave velocity of fatty and fibrotic livers of rat model was quantitatively measured by using shear wave elastography (SWE) and DMA test. In DMA test, shear wave velocity was calculated from the complex elasticity modulus; storage and loss elastic modulus. The difference in shear wave velocity between fatty and fibrotic livers was evaluated to be 0.27 m/s in SWE and 0.20 m/s in DMA test.

机译：剪切波速度的频率依赖性提供了评估与肝纤维化有关的组织的粘弹性的重要信息。尽管Voigt模型通常用于粘弹性分析，但有几项研究表明，通过动态机械分析（DMA）测试测量的频率依赖性与理论预测不一致。为了通过使用剪切波弹性造影（SWE）和DMA试验，通过使用剪切波弹性造影（SWE）和DMA试验来研究组织结构的变化和组织的粘弹性的关系。在DMA试验中，从复合弹性模量计算剪切波速度;储存和损耗弹性模量。在DMA试验中评估脂肪和纤维化肝脏之间的剪切波速度的抗剪力波速度差异为0.27m / s和0.20m / s。

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《IEEE International Ultrasonics Symposium》|2015年||共4页
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Murakami K.; Tsukune M.; Kobayashi Y.; Fujie M.; Kishimoto R.; Obata T.; Kawamura K.; Yoshida K.; Yamaguchi T.;
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中图分类超声学;
关键词
biological tissues; biomechanics; biomedical ultrasonics; elastic waves; liver; viscoelasticity; DMA test; Voigt model; dynamic mechanical analysis; elasticity modulus; fatty liver; fibrotic liver; liver tissue; rat model; shear wave elastography; shear wave velocity; tissue structure; viscoelastic analysis; viscoelasticity; Acoustics; Biological tissues; Elasticity; Frequency dependence; Liver; Velocity measurement; Viscosity; Shear wave; elastography; freaquency dependence; rheometer; viscoelasticity properties;

机译：生物学组织;生物力学;生物医学超声;肝脏;粘弹性;DMA测试;voigt模型;动态机械分析;弹性模量;脂肪性肝脏;肝组织;大鼠模型;剪切波速度;剪切波速度;组织结构;组织结构粘弹性分析;粘弹性;声学;生物组织;弹性;频率依赖性;肝脏;速度测量;粘度;剪切波;弹性术;流变仪;粘弹性;粘弹性;粘弹性;

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Viscoelasticity and shear wave velocity of liver tissue evaluated by dynamic mechanical analysis

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