High Dominant Frequencies and Fractionated Potentials Do Not Indicate Focal or Rotational Activation During AF

Lianne N van Staveren; Richard C Hendriks; Yannick J H J Taverne; Natasja M S de Groot

doi:10.1016/j.jacep.2023.01.013

High Dominant Frequencies and Fractionated Potentials Do Not Indicate Focal or Rotational Activation During AF

JACC Clin Electrophysiol. 2023 Jul;9(7 Pt 2):1082-1096. doi: 10.1016/j.jacep.2023.01.013. Epub 2023 Mar 22.

Authors

Lianne N van Staveren¹, Richard C Hendriks², Yannick J H J Taverne³, Natasja M S de Groot⁴

Affiliations

¹ Department of Cardiology, Erasmus Medical Center, Rotterdam, the Netherlands.
² Delft University of Technology, Delft, the Netherlands.
³ Department of Cardiothoracic Surgery, Erasmus Medical Center, Rotterdam, the Netherlands.
⁴ Department of Cardiology, Erasmus Medical Center, Rotterdam, the Netherlands. Electronic address: n.m.s.degroot@erasmusmc.nl.

PMID: 37495319
DOI: 10.1016/j.jacep.2023.01.013

Abstract

Background: Dominant frequencies (DFs) or complex fractionated atrial electrograms (CFAEs), indicative of focal sources or rotational activation, are used to identify target sites for atrial fibrillation (AF) ablation in clinical studies, although the relationship among DF, CFAE, and activation patterns remains unclear.

Objectives: This study sought to investigate the relationship between patterns of activation underlying DF and CFAE sites during AF.

Methods: Epicardial high-resolution mapping of the right and left atrium including Bachmann's bundle was performed in 71 participants. We identified the highest dominant frequency (DF_max) and highest degree of CFAE (CFAE_max) with the use of existing clinical criteria and classified patterns of activation as focal or rotational activation and smooth propagation, conduction block (CB), collision and remnant activity, and fibrillation potentials as single, double, or fractionated potentials containing, respectively, 1, 2, or 3 or more negative deflections. Relationships among activation patterns, DF_max, and potential types were investigated.

Results: DF_max were primarily located at the left atrioventricular groove and did not harbor focal activation (proportion focal waves: 0% [IQR: 0%-2%]). Compared with non-DF_max sites, DF_max were characterized by more frequent smooth propagation (22% [IQR: 7%-48%] vs 17% [IQR: 11%-24%]; P = 0.001), less frequent conduction block (69% [IQR: 51%-81%] vs 74% [IQR: 69%-78%]; P = 0.006), a higher proportion of single potentials (72% [IQR: 55%-84%] vs 6%1 [IQR: 55%-65%]; P = 0.003), and a lower proportion of fractionated potentials (4% [IQR: 1%-11%] vs 12% [IQR: 9%-15%]; P = 0.004). CFAE_max were mainly found at the pulmonary veins area, and only 1% [IQR: 0%-2%] of all CFAE_max contained focal activation. Compared with non-CFAE_max sites, CFAE_max sites were characterized by less frequent smooth propagation (1% [IQR: 0%-1%] vs 17% [IQR: 12%-24%]; P < 0.001) and more frequent remnant activity (20% [IQR: 12%-29%] vs 8% [IQR: 5%-10%]; P < 0.001), and harbored predominantly fractionated potentials (52% [IQR: 43%-66%] vs 12% [IQR: 9%-14%]; P < 0.001).

Conclusions: Focal or rotational patterns of activation were not consistently detected at DF_max domains and CFAE_max sites. These findings do not support the concept of targeting DF_max or CFAE_max according to existing criteria for AF ablation.

Keywords: atrial fibrillation; epicardial mapping; organized sources.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Atrial Fibrillation* / surgery
Atrioventricular Node
Electrophysiologic Techniques, Cardiac
Epicardial Mapping
Heart Atria
Heart Block
Humans