Marshall Ethanolization, Pulmonary Vein Isolation and Line Completion for Ablation of Persistent Atrial Fibrillation (MARSHALL-PLAN)

Atrial fibrillation (AF) characterized by a fast and anarchic electrical activation of the atria, results in uncoordinated and inefficient atrial contractions that increases the risks of heart failure and strokes. Besides being a major source of morbidity and mortality, AF is one of the most common heart condition and its prevalence increases with age. Radiofrequency catheter ablation of AF has become one of the treatment of choice in AF resistant to conventional antiarrhythmic drugs. For paroxysmal AF, the ablation strategy is clear and consists in complete pulmonary veins isolation (PVI). However, if this strategy works well in paroxysmal AF, the recurrences rate remains high in persistent AF. Beyond PVI, the ablation strategy that has prevailed over the past two decades remains controversial: the left atrium partition using linear lesions ("cox-maze" strategy); the mapping of the left atrium in AF to identify and localize the arrhythmia sources. Both methods have, besides favoring atrial flutters, failed to demonstrated superiority compared to PVI alone (as showed by the clinical trial STAR AF 2). The investigators aims to test a new method of ablation for patients suffering from persistent AF in order to decrease post ablation recurrence. They propose a strategy targeting the native structures facilitating reentries including the ligament of Marshall (LOM), an embryological remnant. Indeed, two studies have demonstrated that LOM could be the source of focal activities, the substrate of reentries and a strong parasympathetic modulator. For these reasons, LOM may represent a major target in AF treatment besides PV isolation. To date, ablation techniques do not ensure the complete destruction of the Marshall's musculature and parasympathetic ganglia that surround it, largely isolated by a sheath of adipose tissue. To overcome this technical limitation, LOM elimination can be achieved by alcohol injection into the vein of Marshall. This innovative approach will then consist in 3 consecutive steps: 1) the destruction of Marshall bundles by ethanol infusion followed by the ablation of the distal and proximal muscular ramification (coronary sinus and ridge); 2) the standard PV isolation; 3) the linear lesions: the mitral, the roof and of the cavo-tricuspid isthmus, main causes of recurrence in atrial flutter.