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A computational study of mother rotor VF in the human ventricles

Sudden cardiac death is one of the major causes of death in the industrialized world. It is most often caused by a cardiac arrhythmia called ventricular fibrillation (VF). Despite its large social and economical impact, the mechanisms for VF in the human heart yet remain to be identified. Two of the...

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Autores principales: Keldermann, R. H., ten Tusscher, K. H. W. J., Nash, M. P., Bradley, C. P., Hren, R., Taggart, P., Panfilov, A. V.
Formato: Texto
Lenguaje:English
Publicado: American Physiological Society 2009
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2643893/
https://www.ncbi.nlm.nih.gov/pubmed/19060124
http://dx.doi.org/10.1152/ajpheart.00952.2008
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author Keldermann, R. H.
ten Tusscher, K. H. W. J.
Nash, M. P.
Bradley, C. P.
Hren, R.
Taggart, P.
Panfilov, A. V.
author_facet Keldermann, R. H.
ten Tusscher, K. H. W. J.
Nash, M. P.
Bradley, C. P.
Hren, R.
Taggart, P.
Panfilov, A. V.
author_sort Keldermann, R. H.
collection PubMed
description Sudden cardiac death is one of the major causes of death in the industrialized world. It is most often caused by a cardiac arrhythmia called ventricular fibrillation (VF). Despite its large social and economical impact, the mechanisms for VF in the human heart yet remain to be identified. Two of the most frequently discussed mechanisms observed in experiments with animal hearts are the multiple wavelet and mother rotor hypotheses. Most recordings of VF in animal hearts are consistent with the multiple wavelet mechanism. However, in animal hearts, mother rotor fibrillation has also been observed. For both multiple wavelet and mother rotor VF, cardiac heterogeneity plays an important role. Clinical data of action potential restitution measured from the surface of human hearts have been recently published. These in vivo data show a substantial degree of spatial heterogeneity. Using these clinical restitution data, we studied the dynamics of VF in the human heart using a heterogeneous computational model of human ventricles. We hypothesized that this observed heterogeneity can serve as a substrate for mother rotor fibrillation. We found that, based on these data, mother rotor VF can occur in the human heart and that ablation of the mother rotor terminates VF. Furthermore, we found that both mother rotor and multiple wavelet VF can occur in the same heart depending on the initial conditions at the onset of VF. We studied the organization of these two types of VF in terms of filament numbers, excitation periods, and frequency domains. We conclude that mother rotor fibrillation is a possible mechanism in the human heart.
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spelling pubmed-26438932009-02-23 A computational study of mother rotor VF in the human ventricles Keldermann, R. H. ten Tusscher, K. H. W. J. Nash, M. P. Bradley, C. P. Hren, R. Taggart, P. Panfilov, A. V. Am J Physiol Heart Circ Physiol Articles Sudden cardiac death is one of the major causes of death in the industrialized world. It is most often caused by a cardiac arrhythmia called ventricular fibrillation (VF). Despite its large social and economical impact, the mechanisms for VF in the human heart yet remain to be identified. Two of the most frequently discussed mechanisms observed in experiments with animal hearts are the multiple wavelet and mother rotor hypotheses. Most recordings of VF in animal hearts are consistent with the multiple wavelet mechanism. However, in animal hearts, mother rotor fibrillation has also been observed. For both multiple wavelet and mother rotor VF, cardiac heterogeneity plays an important role. Clinical data of action potential restitution measured from the surface of human hearts have been recently published. These in vivo data show a substantial degree of spatial heterogeneity. Using these clinical restitution data, we studied the dynamics of VF in the human heart using a heterogeneous computational model of human ventricles. We hypothesized that this observed heterogeneity can serve as a substrate for mother rotor fibrillation. We found that, based on these data, mother rotor VF can occur in the human heart and that ablation of the mother rotor terminates VF. Furthermore, we found that both mother rotor and multiple wavelet VF can occur in the same heart depending on the initial conditions at the onset of VF. We studied the organization of these two types of VF in terms of filament numbers, excitation periods, and frequency domains. We conclude that mother rotor fibrillation is a possible mechanism in the human heart. American Physiological Society 2009-02 2008-12-05 /pmc/articles/PMC2643893/ /pubmed/19060124 http://dx.doi.org/10.1152/ajpheart.00952.2008 Text en Copyright © 2009, American Physiological Society This document may be redistributed and reused, subject to www.the-aps.org/publications/journals/funding_addendum_policy.htm (http://www.the-aps.org/publications/journals/funding_addendum_policy.htm) .
spellingShingle Articles
Keldermann, R. H.
ten Tusscher, K. H. W. J.
Nash, M. P.
Bradley, C. P.
Hren, R.
Taggart, P.
Panfilov, A. V.
A computational study of mother rotor VF in the human ventricles
title A computational study of mother rotor VF in the human ventricles
title_full A computational study of mother rotor VF in the human ventricles
title_fullStr A computational study of mother rotor VF in the human ventricles
title_full_unstemmed A computational study of mother rotor VF in the human ventricles
title_short A computational study of mother rotor VF in the human ventricles
title_sort computational study of mother rotor vf in the human ventricles
topic Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2643893/
https://www.ncbi.nlm.nih.gov/pubmed/19060124
http://dx.doi.org/10.1152/ajpheart.00952.2008
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