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. 2021 Nov;37(11):e3322.
doi: 10.1002/cnm.3322. Epub 2020 Mar 9.

Modelling the action potential propagation in a heart with structural heterogeneities: From high-resolution MRI to numerical simulations

Anđela Davidović  1   2   3   4 Yves Coudière  1   2   3 Yves Bourgault  5
Affiliations

Modelling the action potential propagation in a heart with structural heterogeneities: From high-resolution MRI to numerical simulations

Anđela Davidović et al. Int J Numer Method Biomed Eng. 2021 Nov.

Abstract

Mathematical modelling and numerical simulation in cardiac electrophysiology have already been studied extensively. However, there is a clear lack of techniques and methodologies for studying the propagation of action potential in a heart with structural defects. In this article, we present a modified version of the bidomain model, derived using homogenisation techniques with the assumption of existence of diffusive inclusions in the cardiac tissue. The diffusive inclusions represent regions without electrically active myocytes, for example, fat, fibrosis, and so forth. We present an application of this model to a rat heart. Starting from high-resolution MRI, the geometry of the heart is built and meshed using image processing techniques. We perform a study of the effects of tissue heterogeneities induced by diffusive inclusions on the velocity and shape of the depolarisation wavefront. We present several test cases with different geometries of diffusive inclusions. We reach the conclusion that the conduction velocity is not affected in the best cases, while it is affected by up to 76% in the worst case scenario. Additionally, the shape of the wavefront was affected in some cases.

Keywords: bidomain model; fibrosis; heterogeneous conductivities; image-based modelling; multiscale modelling.

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References

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