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The curvature of the cardiac geometry has a major impact on regional wall stress, but most computational models lack detailed curvature representations. A surface with continuous second-order derivatives is required to model continuous curvatures. The goal of this research was to develop a mouse epicardial geometry model with quantitative surface curvatures.
Magnetic Resonance Imaging (MRI) has exhibited significant potential for quantifying cardiac function and dysfunction in the mouse. Recent advances in high-resolution cardiac MR imaging techniques have contributed to the development of acquisition approaches that allow fast and accurate description of anatomic structures, and accurate surface and finite element (FE) mesh model constructions for study...
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