Egorov Y V, Rozenshtrauh L V
Institute of Experimental Cardiology of Russian Cardiology Research and Production Complex, Moscow, Russia.
Kardiologiia. 2017 Feb;57(2):34-39.
Pulmonary veins (PVs) are thought to play an important role in the initiation of atrial fibrillation. However, systematic microelectrode studies from different regions of the left atria and PV myocardium remain limited.
A 2-microelectrode technique was used to characterize electrophysiological properties of rat left atrial and PV myocardium, at baseline and during electrical stimulation. PV myocardium was characterized by prolonged action potential duration (APD) (74+/-2 ms in the PV mouth vs. 59+/-3 ms in the left atriul, p<0.01), high degree of APD alternans, and spontaneous depolarizations of resting membrane potential recorded without electrical stimulation. In the distal part of the PV, we found an unexcitable area which was characterized by a depolarized resting potential (50+/-4 mV vs. 82+/-2 mV in the left atrium, p<0.01) and conduction blocks.
PV myocardium demonstrates a high degree of action potential duration heterogeneity and conduction discontinuities which may form a functional substrate for reentrant arrhythmias and provoke atrial fibrillation.
肺静脉(PVs)被认为在房颤的起始中起重要作用。然而,来自左心房和PV心肌不同区域的系统微电极研究仍然有限。
采用双微电极技术在基线和电刺激期间表征大鼠左心房和PV心肌的电生理特性。PV心肌的特征为动作电位时程(APD)延长(PV口处为74±2毫秒,左心房为59±3毫秒,p<0.01)、高度的APD交替以及在无电刺激时记录到的静息膜电位自发去极化。在PV的远端,我们发现一个不可兴奋区域,其特征为静息电位去极化(50±4毫伏,左心房为82±2毫伏,p<0.01)和传导阻滞。
PV心肌表现出高度的动作电位时程异质性和传导不连续性,这可能形成折返性心律失常的功能基质并引发房颤。