PEER-REVIEWED PUBLICATION

2021

Study of biaxial mechanical properties of the passive pig heart: material characterisation and categorisation of regional differences

Nemavhola F

International Journal of Mechanical and Materials Engineering

University of South Africa

RESEARCH SUMMARY

This study quantifies the regional biaxial mechanical properties of passive porcine myocardium to support more accurate constitutive modeling and computational heart simulations. Tissue specimens were harvested from three heart regions—left ventricle (LV), right ventricle (RV), and mid-wall/interventricular septum (MDW)—and tested under biaxial tension. The results demonstrate that passive myocardium exhibits nonlinear, anisotropic behavior and that mechanical properties vary by region, challenging the common modeling assumption that ventricular myocardium is homogeneous. Experimental stress–strain data were fit to two hyperelastic constitutive models (Fung and Choi-Vito), and regional parameter sets and anisotropy indices were reported. The work provides region-specific material parameters intended for use in finite element models of cardiac mechanics and disease simulations (e.g., myocardial infarction).

A CellScale BioTester biaxial mechanical testing system was used to perform planar biaxial tensile testing on passive porcine myocardium samples excised from the LV, RV, and mid-wall/septum. The device enabled controlled orthogonal loading in circumferential and longitudinal directions while recording force–displacement data, generating regional stress–strain curves that capture myocardial nonlinearity and anisotropy. Testing was conducted in a saline bath warmed to 37 °C, supporting physiologically relevant passive tissue mechanics during measurement. The CellScale biaxial data served as the experimental foundation for fitting Fung and Choi-Vito constitutive models and extracting region-specific material parameters for computational cardiac biomechanics.

AUTHORS

Fulufhelo Nemavhola.

PUBLICATION DETAILS

JOURNAL

International Journal of Mechanical and Materials Engineering

YEAR

2021

INSTITUTIONS

University of South Africa

COUNTRIES

South Africa

INSTRUMENT USED

BioTester

TESTING METHODS

Biaxial TestingHydrated and Temperature Controlled TestingTensile Testing

RESEARCH APPLICATIONS

Cardiac Tissue Engineering & Mechanics

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