Abstract
The predisposition of atrial extrasystoles (AES) to trigger cardiac tachyarrhythmia may arise from intramural conduction disorders causing endo-epicardial asynchrony (EEA). This study aimed to determine whether spontaneous AES disturb endo-epicardial conduction. Simultaneous endo-epicardial mapping of the right atrium was performed in patients during cardiac surgery with two 128-electrode arrays. Sixty spontaneous AES were observed in 23 patients and were analyzed for incidence of conduction delay, conduction block and amount of EEA compared to the previous sinus rhythm beat. Both conduction delay and block occurred more often in AES compared to sinus rhythm. The difference in lines of conduction block between the epicardium and endocardium increased in AES causing a greater imbalance of conduction disorders between the layers. The incidence of EEA with differences ≥10 ms increased significantly in AES. AES caused delays between the epicardium and endocardium up to 130 ms and EEA to increase for up to half (47%) of the mapping area. Conduction disturbances between the epicardial and endocardial layer giving rise to EEA increase during AES. Asynchronous activation of the atrial layers increases during AES which may be a mechanism for triggering cardiac tachyarrhythmia under the right conditions but EEA cannot be recognized by current mapping tools.
Highlights
Atrial extrasystoles (AES) are a common finding in the general population and usually the occurrence of AES is benign
High-resolution epicardial mapping demonstrated that atrial conduction disorders increase during spontaneous AES, which are caused by anisotropy due to their ectopic origin and/or refractoriness of myocardium due to their prematurity [4]
We investigated the difference of Endo-epicardial asynchrony (EEA) in sinus rhythm beats and spontaneous AES by performing simultaneous endo-epicardial mapping in patients undergoing cardiac surgery
Summary
Atrial extrasystoles (AES) are a common finding in the general population and usually the occurrence of AES is benign. High-resolution epicardial mapping demonstrated that atrial conduction disorders increase during spontaneous AES, which are caused by anisotropy due to their ectopic origin and/or refractoriness of myocardium due to their prematurity [4]. Endo-epicardial asynchrony (EEA) and the ensuing breakthrough waves caused by endo-to-epicardial conduction or vice versa have been proposed as a possible mechanism sustaining atrial fibrillation [5]. Based on these previous findings, we hypothesized that during AES endo-epicardial conduction will become more disturbed than during SR and that EEA could be a potential mechanism triggering arrhythmia. We investigated the difference of EEA in sinus rhythm beats and spontaneous AES by performing simultaneous endo-epicardial mapping in patients undergoing cardiac surgery
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
