Determination of a Constitutive Relation for Passive Myocardium: II.—Parameter Estimation
- 1 August 1990
- journal article
- research article
- Published by ASME International in Journal of Biomechanical Engineering
- Vol. 112 (3) , 340-346
- https://doi.org/10.1115/1.2891194
Abstract
In the first paper of this series, we proposed a new transversely isotropic pseudostrain-energy function W for describing the biomechanical behavior of excised noncontracting myocardium. The specific functional form of W was inferred directly from biaxial data to be a polynomial function of two coordinate invariant measures of the finite deformation and five material parameters. In this paper, best-fit values of the material parameters are determined from biaxial data using a nonlinear least-squares regression. These values of the parameters are shown to be well-determined, and the final constitutive relation is shown to have good predictive capabilities. Since the proposed constitutive relation describes much broader classes of in-vitro biaxial data than previously proposed relations, it may be better applicable to analyses of stress in the passive heart.Keywords
This publication has 10 references indexed in Scilit:
- Constitutive relations and finite deformations of passive cardiac tissue II: stress analysis in the left ventricle.Circulation Research, 1989
- Structural Three-Dimensional Constitutive Law for the Passive MyocardiumJournal of Biomechanical Engineering, 1988
- On Constitutive Relations and Finite Deformations of Passive Cardiac Tissue: I. A Pseudostrain-Energy FunctionJournal of Biomechanical Engineering, 1987
- Strain Energy Descriptions of Biological Swelling I: Single Fluid Compartment ModelsJournal of Biomechanical Engineering, 1987
- Quantification of the mechanical properties of noncontracting canine myocardium under simultaneous biaxial loadingJournal of Biomechanics, 1987
- An approach to quantification of biaxial tissue stress-strain dataJournal of Biomechanics, 1986
- The standardisation of gauge length: Its influence on the relative extensibility of natural and chemically modified pericardiumJournal of Biomechanics, 1986
- Transmural myocardial deformation in the canine left ventricle. Normal in vivo three-dimensional finite strains.Circulation Research, 1985
- Constitutive stress-strain relations for the myocardium in diastoleJournal of Biomechanics, 1985
- Passive biaxial mechanical properties of isolated canine myocardium.The Journal of Physiology, 1983