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PEŠL, M. HEJČ, J. KULIK, T. VIČAR, T. NOVOTNÁ, P. RONZHINA, M. JAKUBÍK, J. LEINVEBER, P. GONZALEZ RIVAS, J. STÁREK, Z.
Original Title
Cardiac arrhythmias classification in Kardiovize population study
Type
conference paper
Language
English
Original Abstract
Aims: Automatic detection of arrhythmias becomes essential in population studies. Besides available commercial solutions, there are new options for population data handling, such as deep-learning models. In this study, we compare two different approaches and evaluate them on data from atrial fibrillation patients. Methods: 12-lead ECGs recorded in 397 volunteers of the Kardiovize study by ELI™ 350 ECG Mortara were used. The Mortara system automatically assigned each record to one or more of 88 various categories. Additionally, the ECGs were analyzed by a self-developed deep-learning arrhythmia detector. The detection approach consisted of data preprocessing (downsampling, random amplification, time shift, and random noise alteration) and the ResNet model training. The training database was created using publicly available datasets (total 43,000 records) containing variable data. The detector assigned each record to one or more of 24 categories. The evaluation results were compared. The mismatches were visually inspected and revised. The evaluation process was focused on atrial fibrillation (AF) as one of the most common arrhythmias in the Czech population. Results: On the training set, the F1-score of the model reached 0.86 and 0.87 for normal sinus rhythm and AF, respectively. In both categories, false positives occur. One of the reasons for the model misclassification was incorrect expert evaluation used as a predicted model output. In the test phase, no records were assigned to the AF category. On the contrary, the Mortara system classified six records as AF. Visual verification confirmed the correctness of the model output. Conclusion: From the present pilot study, the deep-learning classificator output contradicts the commercially available ECG evaluator. Notably, no false atrial fibrillation detections were indicated in the model output. According to the expert, ECG evaluation using a deep-learning model seems to be more appropriate for handling population data than the recent solution (Mortara).
Keywords
without keywords
Authors
PEŠL, M.; HEJČ, J.; KULIK, T.; VIČAR, T.; NOVOTNÁ, P.; RONZHINA, M.; JAKUBÍK, J.; LEINVEBER, P.; GONZALEZ RIVAS, J.; STÁREK, Z.
Released
18. 11. 2021
Publisher
IEEE Computer Society
ISBN
2325-887X
Periodical
Computing in Cardiology
State
United States of America
Pages from
1
Pages to
4
Pages count
URL
https://www.cinc.org/archives/2021/pdf/CinC2021-271.pdf
BibTex
@inproceedings{BUT173260, author="Martin {Pešl} and Jakub {Hejč} and Tomas {Kulik} and Tomáš {Vičar} and Petra {Novotná} and Marina {Filipenská} and Juraj {Jakubík} and Pavel {Leinveber} and Juan Pablo {Gonzalez Rivas} and Zdeněk {Stárek}", title="Cardiac arrhythmias classification in Kardiovize population study", booktitle="Computing in Cardiology 2021", year="2021", journal="Computing in Cardiology", pages="1--4", publisher="IEEE Computer Society", doi="10.23919/CinC53138.2021.9662699", issn="2325-887X", url="https://www.cinc.org/archives/2021/pdf/CinC2021-271.pdf" }