Frontiers in Cardiovascular Medicine (Apr 2022)

High Specificity Wearable Device With Photoplethysmography and Six-Lead Electrocardiography for Atrial Fibrillation Detection Challenged by Frequent Premature Contractions: DoubleCheck-AF

  • Justinas Bacevicius,
  • Justinas Bacevicius,
  • Zygimantas Abramikas,
  • Zygimantas Abramikas,
  • Ernestas Dvinelis,
  • Ernestas Dvinelis,
  • Deimile Audzijoniene,
  • Deimile Audzijoniene,
  • Marija Petrylaite,
  • Marija Petrylaite,
  • Julija Marinskiene,
  • Julija Marinskiene,
  • Justina Staigyte,
  • Justina Staigyte,
  • Albinas Karuzas,
  • Albinas Karuzas,
  • Vytautas Juknevicius,
  • Vytautas Juknevicius,
  • Rusne Jakaite,
  • Rusne Jakaite,
  • Viktorija Basyte-Bacevice,
  • Neringa Bileisiene,
  • Neringa Bileisiene,
  • Andrius Solosenko,
  • Daivaras Sokas,
  • Andrius Petrenas,
  • Monika Butkuviene,
  • Birute Paliakaite,
  • Saulius Daukantas,
  • Andrius Rapalis,
  • Germanas Marinskis,
  • Germanas Marinskis,
  • Eugenijus Jasiunas,
  • Angeliki Darma,
  • Vaidotas Marozas,
  • Vaidotas Marozas,
  • Audrius Aidietis,
  • Audrius Aidietis

DOI
https://doi.org/10.3389/fcvm.2022.869730
Journal volume & issue
Vol. 9

Abstract

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BackgroundConsumer smartwatches have gained attention as mobile health (mHealth) tools able to detect atrial fibrillation (AF) using photoplethysmography (PPG) or a short strip of electrocardiogram (ECG). PPG has limited accuracy due to the movement artifacts, whereas ECG cannot be used continuously, is usually displayed as a single-lead signal and is limited in asymptomatic cases.ObjectiveDoubleCheck-AF is a validation study of a wrist-worn device dedicated to providing both continuous PPG-based rhythm monitoring and instant 6-lead ECG with no wires. We evaluated its ability to differentiate between AF and sinus rhythm (SR) with particular emphasis on the challenge of frequent premature beats.Methods and ResultsWe performed a prospective, non-randomized study of 344 participants including 121 patients in AF. To challenge the specificity of the device two control groups were selected: 95 patients in stable SR and 128 patients in SR with frequent premature ventricular or atrial contractions (PVCs/PACs). All ECG tracings were labeled by two independent diagnosis-blinded cardiologists as “AF,” “SR” or “Cannot be concluded.” In case of disagreement, a third cardiologist was consulted. A simultaneously recorded ECG of Holter monitor served as a reference. It revealed a high burden of ectopy in the corresponding control group: 6.2 PVCs/PACs per minute, bigeminy/trigeminy episodes in 24.2% (31/128) and runs of ≥3 beats in 9.4% (12/128) of patients. AF detection with PPG-based algorithm, ECG of the wearable and combination of both yielded sensitivity and specificity of 94.2 and 96.9%; 99.2 and 99.1%; 94.2 and 99.6%, respectively. All seven false-positive PPG-based cases were from the frequent PVCs/PACs group compared to none from the stable SR group (P < 0.001). In the majority of these cases (6/7) cardiologists were able to correct the diagnosis to SR with the help of the ECG of the device (P = 0.012).ConclusionsThis is the first wearable combining PPG-based AF detection algorithm for screening of AF together with an instant 6-lead ECG with no wires for manual rhythm confirmation. The system maintained high specificity despite a remarkable amount of frequent single or multiple premature contractions.

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