Atrial fibrillation (AF) is the most common type of arrhythmia encountered in clinical practice but its maintaining mechanisms remain elusive. Over the last years, various theories have been proposed to target AF mechanisms. Recently, there has been an increasing interest in understanding how spiral waves and rotors sustain AF and how they might be therapeutic targets for catheter-based ablation. Phase mapping has recently been used as a robust method to characterize the spatiotemporal variability of electrical activities. In this study, we propose an independent approach for basket catheter electrogram (EGM) processing to detect rotors in AF. An improved version of the sinusoidal recomposition method for the local activation timings (LATs) has been developed and 3D phase maps have been reconstructed. An algorithm able to detect stable and meandering rotors on the left atrium (LA) surface was then developed. This workflow has been validated on synthetic EGMs and in silico showing excellent results. On in vivo data, we found 4.0±3.4 and 4.6±5.0 localized and meandering rotors with a persistence in time: 303.2 ±58.2ms and 302.3±52.0ms respectively.

M. Valinoti, F.B. (2017). Phase Analysis of Endoatrial Electrograms for 3D Rotor Detection in Atrial Fibrillation. IEEE Press [10.22489/CinC.2017.193-415].

Phase Analysis of Endoatrial Electrograms for 3D Rotor Detection in Atrial Fibrillation

M. Valinoti;M. Alessandrini;S. Severi;C. Corsi
2017

Abstract

Atrial fibrillation (AF) is the most common type of arrhythmia encountered in clinical practice but its maintaining mechanisms remain elusive. Over the last years, various theories have been proposed to target AF mechanisms. Recently, there has been an increasing interest in understanding how spiral waves and rotors sustain AF and how they might be therapeutic targets for catheter-based ablation. Phase mapping has recently been used as a robust method to characterize the spatiotemporal variability of electrical activities. In this study, we propose an independent approach for basket catheter electrogram (EGM) processing to detect rotors in AF. An improved version of the sinusoidal recomposition method for the local activation timings (LATs) has been developed and 3D phase maps have been reconstructed. An algorithm able to detect stable and meandering rotors on the left atrium (LA) surface was then developed. This workflow has been validated on synthetic EGMs and in silico showing excellent results. On in vivo data, we found 4.0±3.4 and 4.6±5.0 localized and meandering rotors with a persistence in time: 303.2 ±58.2ms and 302.3±52.0ms respectively.
2017
Computing in Cardiology
1
4
M. Valinoti, F.B. (2017). Phase Analysis of Endoatrial Electrograms for 3D Rotor Detection in Atrial Fibrillation. IEEE Press [10.22489/CinC.2017.193-415].
M. Valinoti, F. Berto, M. Alessandrini, R. Mantovan, A. Loewe, O. Dössel, S. Severi, C. Corsi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/626907
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