血管弹性成像：一项验证研究。

Vascular elastography: a validation study.

作者信息

Lopata Richard G P, Peters Mathijs F J, Nijs Jan, Oomens Cees W J, Rutten Marcel C M, van de Vosse Frans N

机构信息

Cardiovascular Biomechanics, Department of Biomedical Engineering, Eindhoven University of Technology, Eindhoven, The Netherlands.

出版信息

Ultrasound Med Biol. 2014 Aug;40(8):1882-95. doi: 10.1016/j.ultrasmedbio.2014.02.029. Epub 2014 May 3.

DOI:10.1016/j.ultrasmedbio.2014.02.029

PMID:24798385

Abstract

Vascular elastography techniques are promising tools for mechanical characterization of diseased arteries. These techniques are usually validated with simulations or phantoms or by comparing results with histology or other imaging modalities. In the study described here, vascular elastography was applied to porcine aortas in vitro during inflation testing (n = 10) and results were compared with those of standard bi-axial tensile testing, a technique that directly measures the force applied to the tissue. A neo-Hookean model was fit to the stress-strain data, valid for large deformations. Results indicated good correspondence between the two techniques, with GUS = 110 ± 11 kPa and GTT = 108 ± 10 kPa for ultrasound and tensile testing, respectively. Bland-Altman analysis revealed little bias (GUS-GTT = 2 ± 20 kPa). The next step will be the application of a non-linear material model that is also adaptable for in vivo measurements.

摘要

血管弹性成像技术是用于对病变动脉进行力学特性表征的有前景的工具。这些技术通常通过模拟、体模验证，或者将结果与组织学或其他成像方式进行比较来验证。在本文所述的研究中，血管弹性成像技术应用于体外充气测试的猪主动脉（n = 10），并将结果与标准双轴拉伸测试的结果进行比较，标准双轴拉伸测试是一种直接测量施加于组织的力的技术。将一个新胡克模型拟合到应力 - 应变数据，该模型对大变形有效。结果表明两种技术之间具有良好的一致性，超声和拉伸测试的GUS = 110 ± 11 kPa和GTT = 108 ± 10 kPa。布兰德 - 奥特曼分析显示偏差很小（GUS - GTT = 2 ± 20 kPa）。下一步将是应用一种也适用于体内测量的非线性材料模型。

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血管弹性成像：一项验证研究。

Vascular elastography: a validation study.

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