高旁道传导性阻断预激综合征的前向传导：一项模拟研究。

High accessory pathway conductivity blocks antegrade conduction in Wolff-Parkinson-White syndrome: A simulation study.

作者信息

Haraguchi Ryo, Ashihara Takashi, Matsuyama Taka-Aki, Yoshimoto Jun

机构信息

Graduate School of Applied Informatics University of Hyogo Kobe Japan.

Center for Information Technology and Management Shiga University of Medical Science Otsu Japan.

出版信息

J Arrhythm. 2021 Mar 24;37(3):683-689. doi: 10.1002/joa3.12528. eCollection 2021 Jun.

DOI:10.1002/joa3.12528

PMID:34141022

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8207359/

Abstract

BACKGROUND

Wolff-Parkinson-White (WPW) syndrome is characterized by an anomalous accessory pathway (AP) that connects the atrium and ventricles, which can cause abnormal myocardial excitation and cardiac arrhythmias. The morphological and electrophysiological details of the AP remain unclear. The size and conductivity of the AP may affect conduction and WPW syndrome symptoms.

METHODS

To clarify this issue, we performed computer simulations of antegrade AP conduction using a simplified wall model. We focused on the bundle size of the AP and myocardial electrical conductivity during antegrade conduction (from the atrium to the ventricle).

RESULTS

We found that a thick AP and high ventricular conductivity promoted antegrade conduction, whereas a thin AP is unable to deliver the transmembrane current required for electric conduction. High ventricular conductivity amplifies transmembrane current. These findings suggest the involvement of a source-sink mechanism. Furthermore, we found that high AP conductivity blocked antegrade conduction. As AP conductivity increased, sustained outward transmembrane currents were observed. This finding suggests the involvement of an electrotonic effect.

CONCLUSIONS

The findings of our theoretical simulation suggest that AP size, ventricular conductivity, and AP conductivity affect antegrade conduction through different mechanisms. Our findings provide new insights into the morphological and electrophysiological details of the AP.

摘要

背景

预激综合征（WPW）的特征是存在一条连接心房和心室的异常附加通路（AP），这可导致心肌兴奋异常和心律失常。AP的形态和电生理细节仍不清楚。AP的大小和传导性可能影响传导及WPW综合征症状。

方法

为阐明这一问题，我们使用简化的壁模型对AP的前向传导进行了计算机模拟。我们关注前向传导（从心房到心室）期间AP的束状大小和心肌电导率。

结果

我们发现，粗大的AP和高心室电导率促进前向传导，而纤细的AP无法传递电传导所需的跨膜电流。高心室电导率会放大跨膜电流。这些发现提示存在源-汇机制。此外，我们发现高AP传导性会阻断前向传导。随着AP传导性增加，观察到持续的外向跨膜电流。这一发现提示存在电紧张效应。

结论

我们的理论模拟结果表明，AP大小、心室电导率和AP传导性通过不同机制影响前向传导。我们的发现为AP的形态和电生理细节提供了新的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/62e5/8207359/c81588825f89/JOA3-37-683-g003.jpg

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高旁道传导性阻断预激综合征的前向传导：一项模拟研究。

High accessory pathway conductivity blocks antegrade conduction in Wolff-Parkinson-White syndrome: A simulation study.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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