Title :
A machine learning regularization of the inverse problem in electrocardiography imaging
Author :
Zemzemi, Nejib ; Dubois, Remi ; Coudiere, Yves ; Bernus, Olivier ; Haissaguerre, Michel
Author_Institution :
INRIA, Bordeaux, France
Abstract :
Radio-frequency ablation is one of the most efficient treatments of atrial fibrillation. The idea behind it is to stop the propagation of ectopic beats coming from the pulmonary vein and the abnormal conduction pathways. Medical doctors need to use invasive catheters to localize the position of the triggers and they have to decide where to ablate during the intervention. ElectroCardioGraphy Imaging (ECGI) provides the opportunity to reconstruct the electrical potential and activation maps on the heart surface and analyze data prior to the intervention. The mathematical problem behind the reconstruction of heart potential is known to be ill posed. In this study we propose to regularize the inverse problem with a statistically reconstructed heart potential, and we test the method on synthetically data produced using an ECG simulator.
Keywords :
blood vessels; catheters; electrocardiography; inverse problems; learning (artificial intelligence); medical image processing; radiofrequency heating; ECG simulator; ECGI; abnormal conduction pathways; activation maps; atrial fibrillation; ectopic beats; electrical potential; electrocardiography imaging; heart potential reconstruction; heart surface; invasive catheters; inverse problem; machine learning regularization; medical doctors; pulmonary vein; radio-frequency ablation; Biological system modeling; Electric potential; Electrocardiography; Heart; Inverse problems; Mathematical model; Torso;
Conference_Titel :
Computing in Cardiology Conference (CinC), 2013
Conference_Location :
Zaragoza
Print_ISBN :
978-1-4799-0884-4
