Drifting rotor prevalence is associated with dominant frequency reduction after persistent atrial fibrillation ablation

Identification and targeting of arrhythmogenic atrial regions remains an evident challenge in persistent atrial fibrillation patients. Frequency and phase analysis have shown their usefulness for better understanding the arrhythmia. This study aimed to investigate the spatio-temporal association between dominant frequency (DF) and re-entrant phase activation areas. For this, eight persistent AF patients were enrolled and 2048 left atrial AF electrograms (AEG) were acquired from each for up to 15 seconds following ventricular far-field cancellation. DF and phase singularity (PS) points were automatically identified and tracked over consecutive frames for spatio-temporal analysis. As result, simultaneous not spatio-temporally stable PS points were identified drifting throughout the left atrium. After pulmonary vein isolation PS incidence reduced (90.8±59.8 vs. 23.8±31.6, p<;0.05), concomitantly, DF decreased (DFmax from 7.3±0.4 Hz to 7.1±0.8 Hz, p=0.26 and DFmin from 5.1±1.2 Hz to 4.2±1.1 Hz, p<;0.05). Higher concentrations of PS areas seem to have a certain degree of co-localisation with HDF regions. Both frequency and phase analyses seem to have a role in identifying atrial regions that might be perpetuating persistent AF. Concatenated DF/PS mapping may contribute as an auxiliary tool for AF ablation.

[1]  Kumaraswamy Nanthakumar,et al.  Phase Mapping of Cardiac Fibrillation , 2010, Circulation. Arrhythmia and electrophysiology.

[2]  Ashok J. Shah,et al.  Driver Domains in Persistent Atrial Fibrillation , 2014, Circulation.

[3]  M. Mansour,et al.  Mother rotors and fibrillatory conduction: a mechanism of atrial fibrillation. , 2002, Cardiovascular research.

[4]  W. Rheinboldt,et al.  A COMPUTER MODEL OF ATRIAL FIBRILLATION. , 1964, American heart journal.

[5]  José Jalife,et al.  Rotors and the Dynamics of Cardiac Fibrillation , 2013, Circulation research.

[6]  Sanjiv M Narayan,et al.  Focal impulse and rotor modulation ablation of sustaining rotors abruptly terminates persistent atrial fibrillation to sinus rhythm with elimination on follow-up: a video case study. , 2012, Heart rhythm.

[7]  J Clémenty,et al.  Spontaneous initiation of atrial fibrillation by ectopic beats originating in the pulmonary veins. , 1998, The New England journal of medicine.

[8]  N. Peters,et al.  Simultaneous endocardial mapping in the human left ventricle using a noncontact catheter: comparison of contact and reconstructed electrograms during sinus rhythm. , 1998, Circulation.

[9]  J Jalife,et al.  Rectification of the Background Potassium Current: A Determinant of Rotor Dynamics in Ventricular Fibrillation , 2001, Circulation research.

[10]  P. Kirchhof,et al.  Pathophysiological mechanisms of atrial fibrillation: a translational appraisal. , 2011, Physiological reviews.

[11]  Prashanthan Sanders,et al.  Outcomes of long-standing persistent atrial fibrillation ablation: a systematic review. , 2010, Heart rhythm.

[12]  F. Schlindwein,et al.  Distinctive Patterns of Dominant Frequency Trajectory Behavior in Drug‐Refractory Persistent Atrial Fibrillation: Preliminary Characterization of Spatiotemporal Instability , 2014, Journal of cardiovascular electrophysiology.

[13]  Robert Ploutz-Snyder,et al.  Real-time dominant frequency mapping and ablation of dominant frequency sites in atrial fibrillation with left-to-right frequency gradients predicts long-term maintenance of sinus rhythm. , 2009, Heart rhythm.

[14]  Fernando S. Schlindwein,et al.  Analysis of QRS-T subtraction in unipolar atrial fibrillation electrograms , 2013, Medical & Biological Engineering & Computing.