利用有限元心脏力学模型和体外模型定量评价基于相关性的3D与2D散斑跟踪

S. Tripathy, M. Simon, K. Kim
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引用次数: 1

摘要

二维(2D)散斑跟踪(ST)多年来在许多不同的超声(US)弹性成像应用中得到广泛应用,但存在一些局限性。由于心脏的3D和复杂运动,2D ST尤其在心脏应用方面受到限制。平面外运动是二维ST去相关的主要来源,近年来基于全三维核搜索的三维ST克服了这些限制。在这项研究中,通过基于有限元(FE)的心脏力学模型和使用组织模型的水箱实验,定量分析了3D ST性能与2D ST相比的改善。基于有限元的分析表明,误差提高了约两倍。在实验中观察到,位移估计图像的质量有了很大的提高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Quantitative evaluation of correlation-based 3D vs. 2D speckle tracking using finite element cardiac mechanical model and in-vitro phantom
Two-dimensional (2D) speckle tracking (ST) has been used extensively over the years in many different ultrasound (US) elasticity imaging applications with some limitations. 2D ST is limited especially for cardiac applications because of the 3D and complex motion of the heart. Out-of-plane motion is a major source of decorrelation for 2D ST. Recently 3D ST based on full 3D kernel search has been developed to overcome these limitations. In this study, the improvement of 3D ST performance compared to 2D ST is quantitatively analyzed via both a finite element (FE) based cardiac mechanical model and water tank experiments using a tissue phantom. Finite element based analysis suggested an improvement of about two folds in the errors. Considerable improvement in the quality of the displacement estimate images was observed in the experiments.
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