The functions of atrial strands interdigitating with and penetrating into sinoatrial node: a theoretical study of the problem.

The functions of atrial strands interdigitating with and penetrating into sinoatrial node: a theoretical study of the problem.

The sinoatrial node (SAN)-atrium system is closely involved with the activity of heart beating. The impulse propagation and phase-locking behaviors of this system are of theoretical interest. Some experiments have revealed that atrial strands (ASs) interdigitate with and penetrate into the SAN, wher...

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Main Authors: Xiaodong Huang, Xiaohua Cui
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2015-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4372425?pdf=render
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spelling doaj-119ec8cc1cbe45c3a93df14e5a8e46642020-11-24T21:10:45ZengPublic Library of Science (PLoS)PLoS ONE1932-62032015-01-01103e011862310.1371/journal.pone.0118623The functions of atrial strands interdigitating with and penetrating into sinoatrial node: a theoretical study of the problem.Xiaodong HuangXiaohua CuiThe sinoatrial node (SAN)-atrium system is closely involved with the activity of heart beating. The impulse propagation and phase-locking behaviors of this system are of theoretical interest. Some experiments have revealed that atrial strands (ASs) interdigitate with and penetrate into the SAN, whereby the SAN-atrium system works as a complex network. In this study, the functions of ASs are numerically investigated using realistic cardiac models. The results indicate that the ASs penetrating into the central region of the SAN play a major role in propagating excitation into the atrium. This is because the threshold SAN-AS coupling for an AS to function as an alternative path for propagation is lower at the center than at the periphery. However, ASs penetrating into the peripheral region have a great effect in terms of enlarging the 1:1 entrainment range of the SAN because the automaticity of the SAN is evidently reduced by ASs. Moreover, an analytical formula for approximating the enlargement of the 1:1 range is derived.http://europepmc.org/articles/PMC4372425?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Xiaodong Huang
Xiaohua Cui
spellingShingle Xiaodong Huang
Xiaohua Cui
The functions of atrial strands interdigitating with and penetrating into sinoatrial node: a theoretical study of the problem.
PLoS ONE
author_facet Xiaodong Huang
Xiaohua Cui
author_sort Xiaodong Huang
title The functions of atrial strands interdigitating with and penetrating into sinoatrial node: a theoretical study of the problem.
title_short The functions of atrial strands interdigitating with and penetrating into sinoatrial node: a theoretical study of the problem.
title_full The functions of atrial strands interdigitating with and penetrating into sinoatrial node: a theoretical study of the problem.
title_fullStr The functions of atrial strands interdigitating with and penetrating into sinoatrial node: a theoretical study of the problem.
title_full_unstemmed The functions of atrial strands interdigitating with and penetrating into sinoatrial node: a theoretical study of the problem.
title_sort functions of atrial strands interdigitating with and penetrating into sinoatrial node: a theoretical study of the problem.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2015-01-01
description The sinoatrial node (SAN)-atrium system is closely involved with the activity of heart beating. The impulse propagation and phase-locking behaviors of this system are of theoretical interest. Some experiments have revealed that atrial strands (ASs) interdigitate with and penetrate into the SAN, whereby the SAN-atrium system works as a complex network. In this study, the functions of ASs are numerically investigated using realistic cardiac models. The results indicate that the ASs penetrating into the central region of the SAN play a major role in propagating excitation into the atrium. This is because the threshold SAN-AS coupling for an AS to function as an alternative path for propagation is lower at the center than at the periphery. However, ASs penetrating into the peripheral region have a great effect in terms of enlarging the 1:1 entrainment range of the SAN because the automaticity of the SAN is evidently reduced by ASs. Moreover, an analytical formula for approximating the enlargement of the 1:1 range is derived.
url http://europepmc.org/articles/PMC4372425?pdf=render
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AT xiaodonghuang functionsofatrialstrandsinterdigitatingwithandpenetratingintosinoatrialnodeatheoreticalstudyoftheproblem
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