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犬心房颤动期间迷走神经刺激的高密度映射:重新研究 Moe 假说。

High density mapping of atrial fibrillation during vagal nerve stimulation in the canine heart: restudying the Moe hypothesis.

机构信息

Department of Biomedical Engineering, Case Western Reserve University, Cleveland, Ohio 44106, USA.

出版信息

J Cardiovasc Electrophysiol. 2013 Mar;24(3):328-35. doi: 10.1111/jce.12032. Epub 2012 Dec 4.

DOI:10.1111/jce.12032
PMID:23210508
Abstract

INTRODUCTION

Moe et al. hypothesized that multiple wavelets (random reentry) were the mechanism of atrial fibrillation (AF) based on studies in a vagal nerve stimulation (VNS) canine model and a computer model of AF, but atrial mapping during AF in this model has not been done. We restudied this model using high density, simultaneous site mapping to test the hypothesis that AF was due to multiple wavelets.

METHODS AND RESULTS

During pacing induced AF during VNS in 10 dogs, 512 unipolar atrial electrograms were recorded simultaneously from both atria. AF activation maps were produced including through AF termination after VNS cessation. During sustained AF, multiple foci (persistent and transient) of different cycle lengths (CLs) were present in both atria. Persistent foci of short (mean 112 ± 25 milliseconds), regular (standard deviation 5.3 ± 3 milliseconds) CLs were predominantly found in the left atria, near the pulmonary veins and coronary sinus. Both types of foci acted as drivers, and each produced wave fronts that largely resulted in collision or merging with each other at variable sites. No random reentry (multiple wavelets) was demonstrated. Ordered reentry (circus movement with head-tail interaction) was infrequently seen. With cessation of VNS, focal firing slowed and disappeared, followed by resumption of sinus rhythm after a prolonged pause.

CONCLUSIONS

In contrast to the prediction of the multiple wavelet hypothesis, during AF in the Moe model, multiple foci drove the atria, producing and maintaining AF. Reentry played little, if any, role.

摘要

简介

Moe 等人基于迷走神经刺激 (VNS) 犬模型和房颤计算机模型的研究,假设多个子波(随机折返)是房颤(AF)的机制,但该模型中 AF 期间的心房标测尚未进行。我们使用高密度、同时位点映射重新研究了该模型,以测试 AF 是由于多个子波的假设。

方法和结果

在 10 只狗的 VNS 诱导的起搏诱导的 AF 期间,从左右心房同时记录 512 个单极心房电图。产生了 AF 激活图,包括 VNS 停止后的 AF 终止。在持续的 AF 中,两个心房中都存在多个焦点(持续和短暂)和不同的周期长度(CL)。左心房附近的短(平均 112±25 毫秒)、规则(标准偏差 5.3±3 毫秒)CL 的持续性焦点为主,靠近肺静脉和冠状窦。两种类型的焦点都充当驱动点,每个焦点产生的波阵面在不同部位主要与其他波阵面碰撞或合并。没有证明随机折返(多波)。很少观察到有序折返(带有头尾相互作用的环形运动)。随着 VNS 的停止,焦点放电减慢并消失,随后在长时间暂停后恢复窦性节律。

结论

与多波假设的预测相反,在 Moe 模型的 AF 期间,多个焦点驱动心房,产生并维持 AF。折返作用很小,如果有的话。

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