A three-dimensional finite element method for large elastic deformations of ventricular myocardium .2. Prolate spheroidal coordinates

被引：126

作者：

Costa, KD

Hunter, PJ

Wayne, JS

Waldman, LK

Guccione, JM

McCulloch, AD

机构：

[1] UNIV AUCKLAND,DEPT ENGN SCI,AUCKLAND,NEW ZEALAND

[2] VIRGINIA COMMONWEALTH UNIV,DEPT SURG,RICHMOND,VA

[3] UNIV CALIF SAN DIEGO,DEPT MED,LA JOLLA,CA 92093

[4] UNIV WASHINGTON,DEPT MECH ENGN,ST LOUIS,MO

来源：

JOURNAL OF BIOMECHANICAL ENGINEERING-TRANSACTIONS OF THE ASME | 1996年 / 118卷 / 04期

关键词：

D O I：

10.1115/1.2796032

中图分类号：

Q6 [生物物理学];

学科分类号：

071011 ;

摘要：

A three-dimensional finite element method fro nonlinear finite elasticity is presented using prolate spheroidal coordinates. For a thick-walled ellipsoidal model of passive anisotropic left ventricle, a high-order (cubic Hermite) mesh with 3 elements gave accurate continuous stresses and strains, with a 69 percent savings in degrees of freedom (dof) versus a 70-element standard low-order model. A custom mixed-order model offered 55 percent savings in dof and 39 percent savings in solution time compared with the low-order model. A nonsymmetric 3D model of the passive canine LV was solved using 16 high-order elements. Continuous nonhomogeneous stresses and strains were obtained within 1 hour on a laboratory workstation, with an estimated solution time of less than 4 hours to model end-systole. This method represents the first practical opportunity to solve large-scale anatomically detailed models for cardiac stress analysis.

引用

页码：464 / 472

页数：9

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