Litcius/Paper detail

Atrial fibrillation detection with and without atrial activity analysis using lead-I mobile ECG technology

Gergely Tuboly, György Kozmann, Orsolya Kiss, Béla Merkely

2021Biomedical Signal Processing and Control29 citationsDOIOpen Access PDF

Abstract

This paper presents the performance of an atrial fibrillation (AF) detection algorithm in a lead-I mobile ECG setting. Our aim is to demonstrate that false positive cases occurring due to non-AF arrhythmias can be significantly reduced by taking atrial activity into account in addition to heart rhythm. AF detection was carried out in two ways: only by heart rhythm assessment based on Poincaré plot of RR intervals (A1), and by also performing P wave analysis on the average majority cycle (A2). The algorithm was tested on the PhysioNet MIT-BIH Atrial Fibrillation Database, Long-Term AF Database, MIT-BIH Arrhythmia Database, and MIT-BIH Normal Sinus Rhythm Database. A1 produced an average sensitivity (Se) of 97.64 % and specificity (Sp) of 93.06 %. A2 resulted Se = 96.52 % and Sp = 99.12 %. Additionally, clinical data acquisition was performed by the Sanatmetal WIWE mobile ECG system. On the latter records, Se = 100 % and Sp = 95.31 % were obtained with A1, while A2 resulted Se = 100 % and Sp = 100 %. Atrial activity analysis significantly increased Sp in records with frequent premature beats (by almost 12 %) and marked sinus arrhythmia (by 7.5 %). Based on our results and data from the literature, we suggest that AF detection methods should be tested more carefully on non-AF arrhythmia cases. Applied in WIWE, the A2 version of our algorithm outperforms the AF detectors of current single-channel mobile ECG systems. The results contribute to the significant reduction of false positive AF detections in lead-I mobile ECG technology.

Topics & Concepts

Atrial fibrillationNormal Sinus RhythmP waveCardiologyInternal medicineSinus rhythmRhythmMedicineElectrocardiographyComputer scienceAtrial Fibrillation Management and OutcomesECG Monitoring and AnalysisCardiac electrophysiology and arrhythmias