Electroanatomic mapping and radiofrequency ablation successfully eliminated 100% of breakthroughs from the right atrium to the superior vena cava without complications.
Observational (n=16)
Does electroanatomic mapping and radiofrequency ablation allow for the identification and electrical disconnection of breakthroughs from the right atrium to the superior vena cava in patients with paroxysmal atrial fibrillation?
Electroanatomic mapping can successfully identify specific breakthroughs from the right atrium to the superior vena cava, which can be feasibly and safely disconnected using radiofrequency ablation.
BACKGROUND: The superior vena cava (SVC) is one of the sources of ectopies that can initiate atrial fibrillation (AF). We investigated by radiofrequency ablation the electrophysiological characteristics of the junction of the right atrium (RA) and the SVC and the feasibility of electrical disconnection of the SVC from the RA. METHODS AND RESULTS: Sixteen patients with paroxysmal AF after pulmonary vein isolation underwent electroanatomic mapping at the RA-SVC junction during sinus rhythm. Mapping showed sharp potentials (SVC potentials) inside the SVC. Activation spread from the earliest SVC potential (breakthrough) to the rest of the SVC. SVC potentials were found over a large amount of the circumference, suggesting widespread muscle coverage of the SVC. Breakthroughs from the RA to SVC were located anteriorly, laterally, posteriorly, and septally in 3, 4, 10, and 6 patients, respectively. The number of breakthroughs was 1.4+/-0.5 per patient. Radiofrequency energy was applied with the end point of electrical disconnection. All breakthroughs were eliminated with 3.1+/-1.7 applications per breakthrough without complications. CONCLUSIONS: SVC potentials can be recorded inside the SVC. There are specific breakthroughs from the RA to the SVC that can be identified by electroanatomic mapping. The electrical disconnection of the SVC from the RA is feasible.
Goya et al. (Tue,) conducted a observational in Paroxysmal atrial fibrillation (n=16). Electroanatomic mapping and radiofrequency ablation was evaluated on Electrical disconnection of the superior vena cava from the right atrium (elimination of breakthroughs). Electroanatomic mapping and radiofrequency ablation successfully eliminated 100% of breakthroughs from the right atrium to the superior vena cava without complications.