This is a study evaluating the value of defragmentation of sinus rhythmic low voltage areas in addition to isolation of pulmonary veins in the removal of recurrent atrial fibrillation. The invasive procedure will be performed according to the procedures chosen by the rhythmologist and will in no way be modified by the patient's enrollment in the study. Similarly, the frequency of consultations, date and nature of the additional examinations will be defined by the physician, with the purpose of monitoring the patient.
Radiofrequency ablation has become standard practice in the approach strategy for the symptomatic treatment of atrial fibrillation. The interest of substrate ablation, completing the isolation of the pulmonary veins is controversial. The usual technique for the ablation of recurrent atrial fibrillation is primarily a disconnection of the pulmonary veins, which can be accomplished by isolating the veins one by one or two by two. The isolation of the pulmonary veins is followed most often by a defragmentation of the atrium (ablation of the substrate). The defragmentation is guided by a map of fragmented potentials, made through a topography catheter, to locate the most abnormal areas that are the target of ablation. This strategy requires extensive ablation of the left atrium, with a long procedure time and repeated many radiofrequency shots. On the one hand there is a risk of complication related to the duration of intervention, but also in the longer term of occurrence of flutter scar. In addition to pulmonary vein isolation, the goal is to identify patients with sinus rhythm atrial arrhythmogenic substrate. Once the sinus rhythm has been restored by electrical cardioversion or spontaneously, a voltage map is carried out to identify the most abnormal (low voltage) areas, and intra-atrial fragmented potentials are identified, either spontaneously or spontaneously by the extra-stimulus method. Ablation of these abnormal areas may lead to better long-term results, limiting prolonged radiofrequency shots and complications associated with longer procedure times.
Study Type
OBSERVATIONAL
Enrollment
212
Low voltage areas are identified and treated by radiofrequency. Atrial fibrillation is treated by heat produced by an electric current: radio frequency. This is an intervention that consists of blocking abnormal electrical activity, especially in the pulmonary veins.
The defragmentation is guided by a map of fragmented potentials, made through a topography catheter, to locate the most abnormal areas that are the target of ablation.
Centre Hospitalier Universitaire d'Angers
Angers, France
Clinique de l'Infirmerie Protestante de Lyon
Caluire-et-Cuire, France
Centre Hospitalier Saint Joseph Saint Luc
Lyon, France
Hôpital Saint-Joseph
Marseille, France
Hôpital Privé Beauregard
Marseille, France
Clinique Ambroise Paré
Neuilly-sur-Seine, France
Hôpital Universitaire Pitié Salpêtrière
Paris, France
Centre Cardiologique du Nord
Saint-Denis, France
Clinique Saint Gatien
Tours, France
Evaluation of the success rate of the procedures
Comparison between the 3 study arms of the number of new episodes of symptomatic atrial fibrillation
Time frame: month 18
Evaluation of the efficiency of the procedures
Comparison between the 3 study arms of the duration of the intervention (in minutes), the duration of fluoroscopy (in minutes), rate of X-ray doses delivered during the procedure (in mGym² (milligray per meter²), the induction of atrial fibrillation at the end of the procedure or not.
Time frame: Day 1
Evaluation of the safety of the procedures
Comparison between the 3 study arms of the number and type of events regarding the types of procedure: pericardial effusion, pericardial drainage, vascular complication, ischemic stroke, heart failure, acute coronary syndrome, new atrial fibrillation episode, death.
Time frame: Day 1 / month 3 / month 6 / month 12 / month 18
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