parametrization of activation based cardiac electrophysiology models using bidomain model simulations
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2016
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Abstract
Eikonal models are useful to compute approximate solutions of cardiac excitation propagation in a computationally efficient way. In this work the underlying conduction velocities for different cell types were computed solving the classical bidomain model equations for planar wavefront propagation. It was further investigated how changes in the conductivity tensors within the bidomain model analytically correspond to changes in the conduction velocity. The error in the presence of local front curvature for the derived eikonal model parametrization were analyzed. The conduction velocity simulated based on the bidomain model was overestimated by a maximum of 10%.
| Reference Key |
birgit2016currentparametrization
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| Authors | ;Stender Birgit |
| Journal | materials science and engineering c |
| Year | 2016 |
| DOI |
10.1515/cdbme-2016-0135
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