Termination of spiral waves during cardiac fibrillation via shock-induced phase resetting
Multiple unstable spiral waves rotating around phase singularities (PSs) in the heart, i.e., ventricular fibrillation (VF), is the leading cause of death in the industrialized world. Spiral waves are ubiquitous in nature and have been extensively studied by physiologists, mathematicians, chemists, a...
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th-cmuir.6653943832-621092018-09-11T09:28:55Z Termination of spiral waves during cardiac fibrillation via shock-induced phase resetting Richard A. Gray Nipon Chattipakorn Biochemistry, Genetics and Molecular Biology Multidisciplinary Multiple unstable spiral waves rotating around phase singularities (PSs) in the heart, i.e., ventricular fibrillation (VF), is the leading cause of death in the industrialized world. Spiral waves are ubiquitous in nature and have been extensively studied by physiologists, mathematicians, chemists, and biologists, with particular emphasis on their movement and stability. Spiral waves are not easy to terminate because of the difficulty of "breaking" the continuous spatial progression of phase around the PSs. The only means to stop VF (i.e., cardiac defibrillation) is to deliver a strong electric shock to the heart. Here, we use the similarities between spiral wave dynamics and limit cycle oscillators to characterize the spatio-temporal dynamics of VF and defibrillation via phase-resetting curves. During VF, only PSs, including their formation and termination, were associated with large phase changes. At low shock strengths, phase-resetting curves exhibited characteristics of weak (type 1) resetting. As shock strength increased, the number of postshock PSs decreased to zero coincident with a transition to strong (type 0) resetting. Our results indicate that shock-induced spiral wave termination in the heart is caused by altering the phase around the PSs, such that, depending on the preshock phase, sites are either excited by membrane depolarization (phase advanced) or exhibit slowed membrane repolarization (phase delay). Strong shocks that defibrillate break the continuity of phase around PSs by forcing the state of all sites to the fast portion of state space, thus quickly leading to a "homogeneity of state," subsequent global repolarization and spiral wave termination. © 2005 by The National Academy of Sciences of the USA. 2018-09-11T09:21:59Z 2018-09-11T09:21:59Z 2005-03-29 Journal 00278424 2-s2.0-16344380608 10.1073/pnas.0407860102 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=16344380608&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/62109 |
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Biochemistry, Genetics and Molecular Biology Multidisciplinary Richard A. Gray Nipon Chattipakorn Termination of spiral waves during cardiac fibrillation via shock-induced phase resetting |
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Multiple unstable spiral waves rotating around phase singularities (PSs) in the heart, i.e., ventricular fibrillation (VF), is the leading cause of death in the industrialized world. Spiral waves are ubiquitous in nature and have been extensively studied by physiologists, mathematicians, chemists, and biologists, with particular emphasis on their movement and stability. Spiral waves are not easy to terminate because of the difficulty of "breaking" the continuous spatial progression of phase around the PSs. The only means to stop VF (i.e., cardiac defibrillation) is to deliver a strong electric shock to the heart. Here, we use the similarities between spiral wave dynamics and limit cycle oscillators to characterize the spatio-temporal dynamics of VF and defibrillation via phase-resetting curves. During VF, only PSs, including their formation and termination, were associated with large phase changes. At low shock strengths, phase-resetting curves exhibited characteristics of weak (type 1) resetting. As shock strength increased, the number of postshock PSs decreased to zero coincident with a transition to strong (type 0) resetting. Our results indicate that shock-induced spiral wave termination in the heart is caused by altering the phase around the PSs, such that, depending on the preshock phase, sites are either excited by membrane depolarization (phase advanced) or exhibit slowed membrane repolarization (phase delay). Strong shocks that defibrillate break the continuity of phase around PSs by forcing the state of all sites to the fast portion of state space, thus quickly leading to a "homogeneity of state," subsequent global repolarization and spiral wave termination. © 2005 by The National Academy of Sciences of the USA. |
| format |
Journal |
| author |
Richard A. Gray Nipon Chattipakorn |
| author_facet |
Richard A. Gray Nipon Chattipakorn |
| author_sort |
Richard A. Gray |
| title |
Termination of spiral waves during cardiac fibrillation via shock-induced phase resetting |
| title_short |
Termination of spiral waves during cardiac fibrillation via shock-induced phase resetting |
| title_full |
Termination of spiral waves during cardiac fibrillation via shock-induced phase resetting |
| title_fullStr |
Termination of spiral waves during cardiac fibrillation via shock-induced phase resetting |
| title_full_unstemmed |
Termination of spiral waves during cardiac fibrillation via shock-induced phase resetting |
| title_sort |
termination of spiral waves during cardiac fibrillation via shock-induced phase resetting |
| publishDate |
2018 |
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https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=16344380608&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/62109 |
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