Simulated ablation in a 3D atrial fibrillation model resulted in a sudden transition to organized flutter in 33% of cases, marked by significantly decreased reentrant wavelets (P<0.0001).
Does simulated ablation cause a critical phase transition from disorganized AF to organized flutter in a 3D AF model?
Simulated ablation in a 3D AF model demonstrates that transitions from AF to anatomical flutter behave as critical phase transitions, suggesting a novel mechanism for ablation efficacy.
Atrial fibrillation (AF) is the most common sustained cardiac arrhythmia with significant morbidity and mortality. Pharmacological agents are not very effective in the management of AF. Therefore, ablation procedures have become the mainstay of AF management. The irregular and seemingly chaotic atrial activity in AF is caused by one or more meandering spiral waves. Previously, we have shown the presence of sudden rhythm organization during ablation of persistent AF. We hypothesize that the observed transitions from a disorganized to an organized rhythm is a critical phase transition. Here, we explore this hypothesis by simulating ablation in an anatomically-correct 3D AF model. In 722 out of 2160 simulated ablation, at least one sudden transition from AF to an organized rhythm (flutter) was noted (33%). They were marked by a sudden decrease in the cycle length entropy and increase in the mean cycle length. At the same time, the number of reentrant wavelets decreased from 2.99 ± 0.06 in AF to 1.76 ± 0.05 during flutter, and the correlation length scale increased from 13.3 ± 1.0 mm to 196.5 ± 86.6 mm (both P < 0.0001). These findings are consistent with the hypothesis that transitions from AF to an anatomical flutter behave as phase transitions in complex non-equilibrium dynamical systems with flutter acting as an absorbing state. Clinically, the facilitation of phase transition should be considered a novel mechanism of ablation and may help to design effective ablation strategies.
Iravanian et al. (Fri,) conducted a other in Atrial fibrillation (n=2,160). Simulated ablation was evaluated on Sudden transition from AF to an organized rhythm (flutter). Simulated ablation in a 3D atrial fibrillation model resulted in a sudden transition to organized flutter in 33% of cases, marked by significantly decreased reentrant wavelets (P<0.0001).
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