Exploring the role of inhibitory coupling in duplex networks
The electrical coupling of myocytes and fibroblasts can play a role in inhibiting electrical impluse propagation in cardiac muscle. To understand the function of fibroblast–myocyte coupling in the aging heart, the spiral-wave dynamics in the duplex networks with inhibitory coupling is numerically in...
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| Published in | Chinese physics B Vol. 26; no. 8; pp. 504 - 510 |
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| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
01.08.2017
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1674-1056 2058-3834 |
| DOI | 10.1088/1674-1056/26/8/088201 |
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| Abstract | The electrical coupling of myocytes and fibroblasts can play a role in inhibiting electrical impluse propagation in cardiac muscle. To understand the function of fibroblast–myocyte coupling in the aging heart, the spiral-wave dynamics in the duplex networks with inhibitory coupling is numerically investigated by the Br–Eiswirth model. The numerical results show that the inhibitory coupling can change the wave amplitude, excited phase duration and excitability of the system. When the related parameters are properly chosen, the inhibitory coupling can induce local abnormal oscillation in the system and the Eckhaus instability of the spiral wave. For the dense inhibitory network, the maximal decrement(maximal increment) in the excited phase duration can reach 24.3%(13.4%), whereas the maximal decrement in wave amplitude approaches 28.1%. Upon increasing the inhibitory coupling strength, the system excitability is reduced and even completely suppressed when the interval between grid points in the inhibitory network is small enough. Moreover, the inhibitory coupling can lead to richer phase transition scenarios of the system, such as the transition from a stable spiral wave to turbulence and the transition from a meandering spiral wave to a planar wave. In addition, the self-sustaining planar wave, the unique meandering of spiral wave and inward spiral wave are observed. The physical mechanisms behind the phenomena are analyzed. |
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| AbstractList | The electrical coupling of myocytes and fibroblasts can play a role in inhibiting electrical impluse propagation in cardiac muscle. To understand the function of fibroblast–myocyte coupling in the aging heart, the spiral-wave dynamics in the duplex networks with inhibitory coupling is numerically investigated by the Br–Eiswirth model. The numerical results show that the inhibitory coupling can change the wave amplitude, excited phase duration and excitability of the system. When the related parameters are properly chosen, the inhibitory coupling can induce local abnormal oscillation in the system and the Eckhaus instability of the spiral wave. For the dense inhibitory network, the maximal decrement(maximal increment) in the excited phase duration can reach 24.3%(13.4%), whereas the maximal decrement in wave amplitude approaches 28.1%. Upon increasing the inhibitory coupling strength, the system excitability is reduced and even completely suppressed when the interval between grid points in the inhibitory network is small enough. Moreover, the inhibitory coupling can lead to richer phase transition scenarios of the system, such as the transition from a stable spiral wave to turbulence and the transition from a meandering spiral wave to a planar wave. In addition, the self-sustaining planar wave, the unique meandering of spiral wave and inward spiral wave are observed. The physical mechanisms behind the phenomena are analyzed. |
| Author | 杨翠云 唐国宁 刘海英 |
| AuthorAffiliation | College of Physical Science and Technology, Guangxi Normal University, Guilin 541004, China Department of Physics and Engineering Technology, Guilin Normal College, Guilin 541001, China |
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| Cites_doi | 10.1038/355349a0 10.1016/j.physrep.2005.11.003 10.1126/science.1064167 10.1242/dev.109.1.11 10.1126/science.230.4726.661 10.1016/j.jelectrocard.2005.06.096 10.1161/01.RES.0000089258.40661.0C 10.1103/PhysRevE.48.R1635 10.1159/000092566 10.1039/a702602a 10.1016/j.bpj.2009.07.054 10.7498/aps.65.198201 10.1103/PhysRevA.72.033825 10.1161/01.RES.72.3.631 10.1016/j.cardiores.2004.08.020 10.1016/j.neuron.2010.11.007 10.1016/0370-1573(92)90098-K 10.1126/science.1179047 10.1103/PhysRevLett.81.5334 10.1093/cvr/cvr292 |
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| Notes | Cui-Yun Yang1,2, Guo-Ning Tang1, and Hai-Ying Liu2( 1 College of Physical Science and Technology, Guangxi Normal University, Guilin 541004, China 2Department of Physics and Engineering Technology, Guilin Normal College, Guilin 541001, China) The electrical coupling of myocytes and fibroblasts can play a role in inhibiting electrical impluse propagation in cardiac muscle. To understand the function of fibroblast–myocyte coupling in the aging heart, the spiral-wave dynamics in the duplex networks with inhibitory coupling is numerically investigated by the Br–Eiswirth model. The numerical results show that the inhibitory coupling can change the wave amplitude, excited phase duration and excitability of the system. When the related parameters are properly chosen, the inhibitory coupling can induce local abnormal oscillation in the system and the Eckhaus instability of the spiral wave. For the dense inhibitory network, the maximal decrement(maximal increment) in the excited phase duration can reach 24.3%(13.4%), whereas the maximal decrement in wave amplitude approaches 28.1%. Upon increasing the inhibitory coupling strength, the system excitability is reduced and even completely suppressed when the interval between grid points in the inhibitory network is small enough. Moreover, the inhibitory coupling can lead to richer phase transition scenarios of the system, such as the transition from a stable spiral wave to turbulence and the transition from a meandering spiral wave to a planar wave. In addition, the self-sustaining planar wave, the unique meandering of spiral wave and inward spiral wave are observed. The physical mechanisms behind the phenomena are analyzed. excitable system, spiral wave, inhibitory coupling, duplex networks 11-5639/O4 |
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| References | 22 12 23 Qian Y (17) 2012; 21 24 15 18 19 Chen J X (14) 2014; 107 1 2 3 4 5 6 7 8 Foerster P (11) 1990; 109 9 Chen J X (13) 2016; 113 Qiu K (16) 2013; 30 20 10 21 |
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| Title | Exploring the role of inhibitory coupling in duplex networks |
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