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Deformation of the diastolic left ventricle—II. Nonlinear geometric effects |
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| Authors: | Ronald F Janz Bruce R Kubert Thomas F Moriarty Arthur F Grimm |
| Institution: | Data Processing Subdivision. The Aerospace Corporation., Los Angeles, California 90009, U.S.A. a Department of Histology, College of Dentistry University of Illinois, Chicago, Illinois 60680, U.S.A. b Department of Physiology, College of Medicine University of Illinois, Chicago, Illinois 60680, U.S.A. |
| Abstract: | A finite element model for the rat left ventricle has been developed which is based on finite deformation elasticity theory: i.e. the model is not limited by assumptions relating to the magnitudes of extensions, shears and angles of rotation which are inherent in the classical theory of elasticity. This model represents the ventricle as a heterogeneous, nonlinearly elastic, isotropic thick-wall solid of revolution. For the representation of myocardial elasticity used in this study, the model predicts overall ventricular stiffnesses at physiological pressures which are 20–30 per cent lower than those obtained with a model based on the classical theory. However, extentions predicted by the two theories differ by as much as 100 per cent in certain portions of the ventricular wall. |
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