The conception of techniques for extracting fibrillatory waves (f-waves) from surface electrocardiograms (ECGs) has enabled their analysis to detect atrial fibrillation (AF) and enhance arrhythmia treatment. Nevertheless, the performance of these methods is weakened by the presence of artifacts and variable morphology of the QRST complexes. Hence, this study introduces a two-step approach aimed at refining the identification of f-waves segments free from artifacts and ventricular residues. The first step detects artifacts by setting a threshold on the amplitude of ECG-derived f-waves signals. The second step performs a binary classification of signals (i.e., with or without ventricular residues) by quantifying the residual ventricular activity in QRST-canceled signals through different metrics. The method was optimized on a database of ECG signals recorded in 148 patients with persistent AF and its potential was showcased in relation to the prediction of catheter ablation (CA) outcome....
Automatic Detection of High-Quality Fibrillatory Waves Segments from Atrial Fibrillation Electrocardiographic Recordings / Escribano, Pilar; Ródenas, Juan; García, Manuel; Ravelli, Flavia; Masè, Michela; Rieta, José J.; Alcaraz, Raúl. - 110:(2024), pp. 129-137. ( 11th International Conference on E-Health and Bioengineering, EHB-2023 Bucharest, Romania 9-10/11/2023) [10.1007/978-3-031-62520-6_15].
Automatic Detection of High-Quality Fibrillatory Waves Segments from Atrial Fibrillation Electrocardiographic Recordings
Escribano, Pilar
;Ravelli, Flavia;Masè, Michela;
2024-01-01
Abstract
The conception of techniques for extracting fibrillatory waves (f-waves) from surface electrocardiograms (ECGs) has enabled their analysis to detect atrial fibrillation (AF) and enhance arrhythmia treatment. Nevertheless, the performance of these methods is weakened by the presence of artifacts and variable morphology of the QRST complexes. Hence, this study introduces a two-step approach aimed at refining the identification of f-waves segments free from artifacts and ventricular residues. The first step detects artifacts by setting a threshold on the amplitude of ECG-derived f-waves signals. The second step performs a binary classification of signals (i.e., with or without ventricular residues) by quantifying the residual ventricular activity in QRST-canceled signals through different metrics. The method was optimized on a database of ECG signals recorded in 148 patients with persistent AF and its potential was showcased in relation to the prediction of catheter ablation (CA) outcome....I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione
