"Real-world" performance of the Confirm Rx™ SharpSense AF detection algorithm: UK Confirm Rx study

Andre Briosa E Gala; Michael T B Pope; Milena Leo; Alexander J Sharp; Abhirup Banerjee; Duncan Field; Honey Thomas; Richard Balasubramaniam; Ross Hunter; Roy S Gardner; David Wilson; Mark M Gallagher; Julian Ormerod; John Paisey; Nick Curzen; Timothy R Betts

doi:10.1002/joa3.13124

"Real-world" performance of the Confirm Rx™ SharpSense AF detection algorithm: UK Confirm Rx study

J Arrhythm. 2024 Sep 3;40(5):1093-1101. doi: 10.1002/joa3.13124. eCollection 2024 Oct.

Authors

Andre Briosa E Gala^{1

2}, Michael T B Pope³, Milena Leo¹, Alexander J Sharp¹, Abhirup Banerjee⁴, Duncan Field⁵, Honey Thomas⁶, Richard Balasubramaniam⁷, Ross Hunter⁸, Roy S Gardner⁹, David Wilson¹⁰, Mark M Gallagher¹¹, Julian Ormerod^{1

12}, John Paisey³, Nick Curzen^{2

3}, Timothy R Betts¹

Affiliations

¹ Department of Cardiology Oxford University Hospitals NHS Foundation Trust Oxford UK.
² Faculty of Medicine University of Southampton Southampton UK.
³ Department of Cardiology University Hospitals Southampton Southampton UK.
⁴ Department of Engineering Science Institute of Biomedical Engineering University of Oxford Oxford UK.
⁵ Department of Cardiology East Suffolk and North Essex NHS Foundation Trust Colchester UK.
⁶ Department of Cardiology Northumbria Healthcare NHS Foundation Trust Wansbeck UK.
⁷ Department of Cardiology University Hospitals Dorset NHS Foundation Trust Bournemouth UK.
⁸ Department of Cardiology Barts Health NHS Trust London UK.
⁹ Scottish National Advanced Heart Failure Service Golden Jubilee National Hospital Glasgow UK.
¹⁰ Department of Cardiology Worcestershire Royal Hospital Worcester UK.
¹¹ Department of Cardiology St George's University Hospitals NHS Foundation Trust London UK.
¹² Department of Cardiology Milton Keynes University Hospital Milton Keynes UK.

Abstract

Introduction: The novel Confirm Rx™ implantable cardiac monitor (ICM) with SharpSense™ technology incorporates a new P-wave discriminator designed to improve AF detection. This study aimed to evaluate the diagnostic performance of the Confirm Rx™ ICM in detecting AF episodes of varying durations.

Methods: We conducted a multicenter retrospective analysis of consecutive patients implanted with a Confirm Rx™ ICM (v1.2) across nine UK hospitals, all with documented AF lasting at least 6 min. Electrocardiograms (ECGs) were manually adjudicated by cardiologists. To account for intra- and inter-reviewer variability, a random sample of 10% of ECGs underwent additional review. Disagreements were resolved by a third reviewer. Diagnostic performance was determined by calculating the gross and patient-averaged positive predictive value (PPV) for AF episodes of different duration. The source of false positive (FP) detection was also categorized.

Results: Overall, 16,230 individual ECGs from 232 patients were included. The median AF episode duration was 14 min. R-wave amplitude remained stable during follow-up (0.52 ± 0.27 mV [initial] vs. 0.54 ± 0.29 mV [end of follow-up], p = .10). The gross and patient-averaged PPV were 75.0% and 67.0%, respectively. Diagnostic performance (gross) increased with progressively longer AF episodes: 88.0% for ≥1 h, 97.3% for 6 h, and 100% for 24 h. The main source of FP during tachycardia was T-wave oversensing (54.2%), while in non-tachycardic episodes it was predominantly ectopy (71.2%). The AF burden precision was excellent (93.3%).

Conclusion: The Confirm Rx™ ICM diagnostic performance was modest for all AF episodes (75%), with accuracy increasing for longer AF episodes.

Keywords: ambulatory monitoring; arrhythmia monitoring; atrial fibrillation; implantable cardiac monitor; implantable loop recorders.