2020
DOI: 10.1038/s41598-020-57449-1
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Anisotropic conduction in the myocardium due to fibrosis: the effect of texture on wave propagation

Abstract: Cardiac fibrosis occurs in many forms of heart disease. It is well established that the spatial pattern of fibrosis, its texture, substantially affects the onset of arrhythmia. However, in most modelling studies fibrosis is represented by multiple randomly distributed short obstacles that mimic only one possible texture, diffuse fibrosis. An important characteristic feature of other fibrosis textures, such as interstitial and patchy textures, is that fibrotic inclusions have substantial length, which is sugges… Show more

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Cited by 22 publications
(31 citation statements)
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“…Upper panels A, B show the results we obtained in a 3D monolayer of the tissue (0.25 mm depth, 1 z-layer). As this case is equivalent to 2D model, we use it as a reference for comparison of 2D and 3D models, in particular with the results reported earlier [29]. We see that the velocity significantly decreases with an increase in the fibrosis percentage.…”
Section: Wavefront Velocity Depends On Fibrosis Fraction and Propagatmentioning
confidence: 68%
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“…Upper panels A, B show the results we obtained in a 3D monolayer of the tissue (0.25 mm depth, 1 z-layer). As this case is equivalent to 2D model, we use it as a reference for comparison of 2D and 3D models, in particular with the results reported earlier [29]. We see that the velocity significantly decreases with an increase in the fibrosis percentage.…”
Section: Wavefront Velocity Depends On Fibrosis Fraction and Propagatmentioning
confidence: 68%
“…Similarly to Nezlobinsky et al [29], we uniformly distributed fibrosis elements and varied length of elements (in x-axis direction) and density of elements distribution. To distribute fibrosis elements through the mesh we implemented two approaches.…”
Section: Fibrosis Pattern Generationmentioning
confidence: 99%
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