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心脏弹性重建的前景。

Prospects for elasticity reconstruction in the heart.

作者信息

O'Donnell Matthew, Skovoroda Andrei R

机构信息

Department of Biomedical Engineering, University of Michigan, Ann Arbor, Michigan 48109-2099, USA.

出版信息

IEEE Trans Ultrason Ferroelectr Freq Control. 2004 Mar;51(3):322-8.

Abstract

The elastic moduli in anisotropic media can be estimated using either direct mechanical or sound speed measurements. Here we compare moduli in the passive heart estimated with different methods and demonstrate that high-frequency (i.e., ultrasonic) sound speed measurements are inconsistent with static deformations and low-frequency shear wave results. Both tissue fixation and the high-operating frequency of ultrasonic measurements contribute to these discrepancies. Moreover, the precision of ultrasonic sound speed measurements required to estimate elastic moduli describing static deformations of a nearly incompressible anisotropic medium such as the heart appears to be beyond the scope of current methods. We conclude that an incompressible anisotropic elastic model is appropriate for elasticity reconstruction in the heart, in which three independent constants characterize small strain behavior, but four are needed for a fully nonlinear description of finite deformations.

摘要

各向异性介质中的弹性模量可以通过直接力学测量或声速测量来估计。在此,我们比较了用不同方法估计的被动心脏中的模量,并证明高频(即超声)声速测量结果与静态变形及低频剪切波结果不一致。组织固定和超声测量的高工作频率都导致了这些差异。此外,估计描述如心脏这样几乎不可压缩的各向异性介质静态变形的弹性模量所需的超声声速测量精度似乎超出了当前方法的范围。我们得出结论,不可压缩各向异性弹性模型适用于心脏弹性重建,其中三个独立常数表征小应变行为,但对于有限变形的完全非线性描述则需要四个常数。

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