Author:
Villa Amalia,Vandenberk Bert,Kenttä Tuomas,Ingelaere Sebastian,Huikuri Heikki V,Zabel Markus,Friede Tim,Sticherling Christian,Tuinenburg Anton,Malik Marek,Van Huffel Sabine,Willems Rik,Varon Carolina
Abstract
AbstractFragmented QRS (fQRS) is an electrocardiographic (ECG) marker of myocardial conduction abnormality, characterized by additional notches in the QRS complex. The presence of fQRS has been associated with an increased risk of all-cause mortality and arrhythmia in patients with cardiovascular disease. However, current binary visual analysis is prone to intra- and inter-observer variability and different definitions are problematic in clinical practice. Therefore, objective quantification of fQRS is needed and could further improve risk stratification of these patients. We present an automated method for fQRS detection and quantification. First, a novel robust QRS complex segmentation strategy is proposed, which combines multi-lead information and excludes abnormal heartbeats automatically. Afterwards extracted features, based on variational mode decomposition (VMD), phase-rectified signal averaging (PRSA) and the number of baseline-crossings of the ECG, were used to train a machine learning classifier (Support Vector Machine) to discriminate fragmented from non-fragmented ECG-traces using multi-center data and combining different fQRS criteria used in clinical settings. The best model was trained on the combination of two independent previously annotated datasets and, compared to these visual fQRS annotations, achieved Kappa scores of 0.68 and 0.44, respectively. We also show that the algorithm might be used in both regular sinus rhythm and irregular beats during atrial fibrillation. These results demonstrate that the proposed approach could be relevant for clinical practice by objectively assessing and quantifying fQRS. The study sets the path for further clinical application of the developed automated fQRS algorithm.
Funder
Flemish Government
Frans Van de Werf Fund for Clinical Cardiovascular Research
Seventh Framework Programme
Fund for Scientific Research Flanders
European Space Agency
Publisher
Springer Science and Business Media LLC
Cited by
3 articles.
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