Atrial The treatment of atrial fibrillation (AF) includes 2 axes: the prevention of the cardio-embolic risk and rhythm control. The possibilities for this control are antiarrhythmic drugs and, above all, catheter ablation, an interventional cardiology technique which consists in treating the areas responsible for the initiation and perpetuation of AF by applying radiofrequency energy or cryotherapy to the myocardial tissue. Limited research has been done on the combination of different parameters to manage AF, especially during the initial stage of the disease. A translational and multimodal approach could make it possible to better characterize this pathology and thus, help to adjust the therapeutic management for the patients. The combined analysis of regional electrophysiological, morphological, and functional parameters of the left atrium could make it possible to better detect early atrial cardiomyopathy and predict recurrences of atrial fibrillation.
The electrophysiological substrate for patients with persistent atrial fibrillation is heterogeneous with areas of atrial myocardium of low voltage amplitudes and areas of rapid fragmented signals in arrhythmia. The targets of ablation treatment in these cases are currently poorly defined. Several promising strategies have emerged, such as the isolation of fibrotic areas, low voltage. An integration analysis of regional electrophysiological, morphological, and functional parameters of the left atrium, therefore, open up a new area of research that has not been studied to date and could help to better guide the therapeutic management of patients with AF. The study aims to assess the association between regional and global myocardial strain abnormalities on magnetic resonance imaging (MRI) and the amplitude of the atrial intracardiac electrical potential, in young subjects with symptomatic AF.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
PREVENTION
Masking
NONE
Enrollment
60
All patients included in the study will undergo two MRI examinations (with injection of contrast product) before and after the ablation procedure.
Institut de Cardiologie de la Pitié-Salpêtrière
Paris, France
Correlation between the regional and global longitudinal strain peaks (percent (%)) and voltage (millivoltage(mV)) of the left atrium measured by MRI and catheter ablation
Time frame: 1 month
Localization in the left atrium and area of low amplitude electrogram areas (<0.5 mV, <0.3 mV and <0.1 mV) measured during the ablation procedure
Time frame: 1 month
Localization in the left atrium and areas of fragmented atrial complexes measured during the ablation procedure
Time frame: 1 months
Local atrial impedance measured by ablation catheter
Time frame: 1 months
Contact force measured by ablation catheter
Time frame: 1 month
Local impedance drop measured during radiofrequency delivery
Time frame: 1 month
Duration of the ablation for each radiofrequency delivery
Time frame: 1 month
Localization of the segmental and regional alteration of the myocardium in the left atrium measured during MRI
Time frame: 3 months
Localization of zones with impaired 4D flow in the left atrium measured during MRI
Time frame: 3 months
Left atrium volume (milliliter (mL)) measured during MRI
Time frame: 3 months
Localization of areas of late enhancement in the left atrium
Time frame: 3 months
Lesion transmurality performed by ablation in each segment of the pulmonary veins
Time frame: 3 months
Subcutaneous measurement (AGE Reader) which combines aging and accumulation of glycated proteins in the subcutaneous tissue measured during MRI
Time frame: 3 months
Volumes (milliliter (ml)) of the left atrium: in the basal state and after passive filling measured during echocardiography
Time frame: 1 month
Analysis of the longitudinal deformation (strain) in speckle tracking in the basal state and after passive measured during echocardiography
Time frame: 1 month
Absence of atrial fibrillation occurrence
Time frame: 12 months
Absence of persistent atrial fibrillation occurrence
Time frame: 12 months
Absence of atrial tachycardia or atrial flutter occurrence after catheter ablation
Time frame: 12 months
Absence of palpitation occurrence after catheter ablation
Time frame: 12 months
6-minute walking test to assess exercise capacity
Time frame: 1 month
Differences in the volumes (milliliter (ml)) of the left atrium (maximum, minimum, atrial pre-systole) between the segmentation performed manually and the segmentation obtained by learning transfer
Time frame: 3 months
Distance between areas of low voltages identified by the cartography and areas of late 3D enhancement identified by MRI, measurement based on the volume (milliliter (ml)) resulting from CT-scan and MRI fusion
Time frame: 3 months
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