Prevalence of pulmonary vein disconnection after anatomical ablation for atrial fibrillation: consequences of wide atrial encircling of the pulmonary veins

doi:10.1093/eurheartj/ehi096

European Heart Journal Advance Access originally published online on January 6, 2005
European Heart Journal 2005 26(7):696-704; doi:10.1093/eurheartj/ehi096

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Prevalence of pulmonary vein disconnection after anatomical ablation for atrial fibrillation: consequences of wide atrial encircling of the pulmonary veins

Mélèze Hocini^*, Prashanthan Sanders, Pierre Jaïs, Li-Fern Hsu, Rukshen Weerasoriya, Christophe Scavée, Yoshihide Takahashi, Martin Rotter, Florence Raybaud, Laurent Macle, Jacques Clémenty and Michel Haïssaguerre

Hôpital Cardiologique du Haut-Lévêque, Avenue de Magellan, 33604 Bordeaux-Pessac, France and the Université Victor Segalen Bordeaux 2, Bordeaux, France

Received 23 July 2004; revised 20 October 2004; accepted 25 November 2004; online publish-ahead-of-print 6 January 2005.

^* Corresponding author. Tel: +33 557 656471; fax: +33 557 656509. E-mail address: jacques.clementy{at}pu.u-bordeaux2.fr

See page 627 for the editorial comment on this article (doi:10.1093/eurheartj/ehi005)

Aims Anatomical and wide atrial encircling of the pulmonaryveins (PVs) has been proposed as a cure of atrial fibrillation(AF). We evaluated the acute achievement of electrical PV isolationusing this approach. In addition, the consequences of wide encirclingof the PVs with isolation were assessed.

Methods and results Twenty patients with paroxysmal AF werestudied. Anatomically guided ablation was performed utilizingthe CARTO system to deliver coalescent lesions circumferentiallyaround each PV to produce a voltage reduction to <0.1 mV,with the operator blinded to recordings of circumferential PVmapping. After achieving the anatomical endpoint, the incidenceof residual conduction and the amplitude and conduction delayof residual PV potentials were determined. Electrical isolationof the PV was then performed and the residual far-field potentialsevaluated. Individual PV ablation was performed in all PVs.Anatomically guided PV ablation was performed for 47.3±11min, after which 44 (55%) PVs were electrically isolated. Inthe remaining 45%, despite abolition of the local potentialat the ablation site, PV potentials [amplitude 0.2 mV (range0.09–0.75) and delay of 50.3±12.6 ms] wereidentified by circumferential mapping. After electrical isolation(12.2±11.7 min ablation), 55 (69%) PVs demonstratedfar-field potentials; with a greater incidence (P=0.015) andamplitude (P=0.021) on the left compared with the right PVs.At 13.2±8.3 months follow-up, 13 patients (65%) remainedarrhythmia-free without anti-arrhythmics. In four patients (20%),spontaneous sustained left atrial macrore-entry required re-mappingand ablation. Macrore-entry was observed to utilize regionsaround or bordering the previous ablation as its substrate.

Conclusion Anatomically guided circumferential PV ablation resultsin apparently coalescent but electrically incomplete lesionswith residual conduction in 45% of PVs. Wide encircling of thePVs was associated with left atrial macrore-entry in 20% ofpatients.

Key Words: Atrial fibrillation • Pulmonary veins • Ablation • Atrial flutter • Electrophysiology

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