Contribution of Computed Tomography and Cardiac-MRI in Atrial Fibrillation Ablation

Overview

Atrial fibrillation ablation (AF) is a standard interventional treatment for patients with symptomatic AF refractory to medical treatment. The known predictive factors for the success of the procedure remain insufficient to predict the probabilities of success and to appropriately select the patients who could benefit the most from this procedure. Left atrium imaging by MRI or CT may be able to identify AF substrate. However data are lacking about the practical impact of these techniques in routine practice to predict AF ablation outcome. The "CT-AF" study is a prospective, interventional, multicenter cohort study. The main objective of this study is to evaluate the prognostic value of a new automated measurement technique for intra-myocardial atrial fat measurement in cardiac CT and the measurement of global left atrial strain in MRI in patients who are candidates for first AF ablation. The main outcome will be the relationship between the relative volume of left atrial fat measured with CT and total left atrial strain in MRI and recurrence of AF at 1 year after the ablation procedure (blanking period of 3 months post ablation excluded).

Scientific background : Atrial fibrillation ablation (AF) is a standard interventional treatment for patients with symptomatic AF refractory to medical treatment. The known predictive factors for the success of the procedure remain insufficient to predict the probabilities of success and to appropriately select the patients who could benefit the most from this invasive procedure. Previous studies have shown that the quantification of atrial fibrosis in magnetic resonance imaging (MRI) may be a good marker of atrial remodeling and would reliably predict the chances of success of the ablation procedure. Nevertheless, the use of this technique is very limited in routine because of the complexity of quantitative analysis and spatial resolution limits. The association of fibrosing processes within epicardial fat has been established. The characterization of epicardial fat in CT could be a relevant substitute for the direct characterization of fibrosis. This examination was essential for the study of atrial anatomy before ablation of AF. In addition to the anatomical evaluation, the study of sub-epicardial fat by cardiac CT could therefore be an interesting approach for evaluating the AF substrate. Main objective: To evaluate the prognostic value of a new automated measurement technique for intra-myocardial atrial fat measurement in cardiac CT and the measurement of global left atrial strain in MRI in patients who are candidates for first AF ablation. Secondary objectives: * To evaluate the clinical features associated with CT-measured atrial epicardial fat in patients requiring first AF ablation * To evaluate the clinical features associated with global and regional left atrial strain measured by MRI in patients who are candidates for first AF ablation * To study global and regional relationships between intramyocardial fat in CT and left atrial strain in MRI * To evaluate the impact of catheter ablation on the evolution of atrial subepicardial fat measured by CT * To evaluate the prognostic value of atrial subepicardial fat measured by CT after AF ablation * To evaluate the relation between subepicardial fat measured by CT and uni-and bipolar voltages mapped in sinus rhythm in patients who are candidates for first AF ablation * To evaluate the relationship between CT subcuticardic fatness and the distribution of AF-mapped fragmented electrograms in patients who are first-ablated with FA * To evaluate the relationship between segmental strain measured by MRI and uni and bipolar voltages mapped in sinus rhythm in patients who are candidates for first AF ablation * To evaluate the relationship between segmental strain measured by MRI and distribution of fragmented electrograms mapped to FA in patients who are candidates for first AF ablation. * To evaluate the interest of the cartographic fusion function-fat-function-electrophysiology 3D * To evaluate the relationship between epicardial fat measured by CT and serum biomarkers (adipokines: MMP8 and Activin A, ANF) measured at baseline and at 3 months after ablation * To evaluate the relationship between segmental strain measured by MRI and serum biomarkers (adipokines: MMP8 and Activin A, ANF) measured at baseline and at 3 months after ablation. Experimental scheme: This is a prospective, interventional, multicenter cohort study. Patients with a first radiofrequency or cryotherapy AF ablation are expected to receive a cardiac CT scan (performed for left atrial anatomy study) from which the volume of sub-epicardial fat will be measured. by a new automated measurement technique. The correlation of this measure with the success of ablation (defined as the absence of recurrence of atrial arrhythmia sustained\> 30 seconds) will be blinded prospectively to 1 year of follow-up. In addition, the reliability of this measurement will be validated against reference measurements in CT and MRI. The evolution of epicardial fat volume after ablation will be evaluated by a control scan performed as part of the treatment (detection of FA post-ablation pulmonary stenosis). The methods of overall care, imaging examinations and decision criteria at the level of care are common to the 3 investigative centers. Visits: V0: selection visit between M-6 and J-1 before ablation (J0) * Clinical examination, interrogation and antecedents; * ECG 12D; * Programming of the preoperative assessment: cardiac scanner after biological assessment with blood ionogram, urea and creatinine and cardiac ultrasound; * Verification of inclusion and non inclusion criteria; * Patient information and surrender of consent. Inclusion visit V1 between the V0 selection visit and the maximum at D-1 before the ablation (J0), after collection of the consent * Cardiac MRI; * Biomarker assay and biological collection. * Recovery of Echocardiography, Standard Biological and Cardiac Scanner data prior to visit V2. Visit V2: Ablation of FA = J0 * Physical examination ; * ECG 12D; * Standard biological assessment; * Ablation data. Follow-up visits: * V3 (M3 +/- 10d): Clinical examination, ECG 12D, holter ECG, cardiac scanner, standard biological assessment, biomarker assay and biological collection. * V4 (M6 +/- 15d): clinical examination, ECG 12D, holter ECG. * V5 (M12 +/- 1month) = End of study visit: Clinical examination, ECG 12D, holter ECG. Number of selected subjects : 130 patients Number of recruiting centers : 5 centers