Clinical Trial Successfully Screens More than 60,000 People for Atrial Fibrillation Using Only A Smartphone

A digital screening for atrial fibrillation successfully monitored more than 60,000 participants from the general population in Belgium. The study screened participants using only a smartphone and demonstrates the feasibility of collecting data in a scalable, controlled and cost-effective way.

Press Release
Written by: HRS

Represents one of the largest population screening efforts for AF ever performed

SAN FRANCISCO, May 11, 2019 – A digital screening for atrial fibrillation successfully monitored more than 60,000 participants from the general population in Belgium. The study screened participants using only a smartphone and demonstrates the feasibility of collecting data in a scalable, controlled and cost-effective way. The results of the trial produced a relevant yield of new atrial fibrillation (AF) patients without over-consuming healthcare resources. The DIGITAL-AF II clinical trial results are being presented today Heart Rhythm 2019, the Heart Rhythm Society's 40th annual Scientific Sessions.

AF affects more than 33.5 million adults each year globally and this number is expected to continue to rise1. This means that the number of patients recommended to screen, aged 65 years and older, will reach an unprecedented volume resulting in unforeseen demands on the healthcare resources. Novel technologies are emerging, such as smartphone APPS that use pulse-plethysmography (PPG) through the camera that make it easier for patients to screen and collects digital results that physicians can track without a visit to the hospital.

All participants had a smartphone and gained access to the app (CE/FDA-cleared; FibriCheck by Qompium) by scanning a QR code distributed via pre-existing communication channels including newspapers throughout Belgium and were instructed to measure heart rhythm twice daily and when experiencing symptoms, for an eight-day monitoring period. After recording their symptoms, each measurement was classified as regular rhythm, possible AF, irregular rhythm or insufficient quality. To ensure high diagnostic accuracy, all irregular measurements were analyzed by medical technicians under supervision of cardiologists. After eight days, all participants received a report with a conclusion and a copy of their rhythm traces.

During the two-week trial, 62,821 participants were enrolled in the digital AF screening, and 61,730 participants completed the monitoring period resulting in a database of 588,282 60- second PPG-traces. Results revealed that 791 participants (or 1.3 percent) performed measurements indicative for AF. The average age of the AF group was 61.9 ± 10.9 years, and 75.9 percent was male. Within the AF group, 72 percent of patients did not experience symptoms. There were 210 patients (or 27 percent) with persistent AF, all detected on the first PPG-measurement. There were 581 patients (or 73 percent) that had paroxysmal AF, with 111 detected on the first PPG-measurement.

"It's fascinating to see the impact that PPG technology is having on clinical practice. Using digital tools in a very structured way enables us to outpace any other traditional methodology to screen or prescreen patients and guide them into an appropriate care pathway," said lead author Tine Proesmans, MASc, Mobile Health Unit, Hasselt University in Belgium. "Using digital technology only, we were able to reach a large population very quickly and collect clinically meaningful and actionable data, without the need for medical infrastructure. Patients also benefit by having the flexibility to take measurements anytime, anywhere, and at a fraction of the cost."

The results presented at Heart Rhythm 2019 build on the initial data set presented in December 2018 at the ESC Congress and shows the feasibility of mass screening for a significantly larger, general patient population.

The authors of this study will continue with phase two of the trial and distribute follow-up questionnaires to the participants that will MAP the decision-making process of screening- positive participants and their physicians. They will also assess the impact of the screening at various time intervals after reporting. In future trials, they hope to expand their trial outside of Belgium and continue to increase the patient screening population.

Sessions details:
"Late Breaking Clinical Trials Session IV: Innovations; Results From A Real-life Digital Atrial Fibrillation Screening And Outcome Registry In The General Population" [Saturday, May 11, 2019, 10:30 am - 12:00 noon PDT, Room 22]

The Heart Rhythm Society's 40th Annual Scientific Sessions convenes the finest clinicians, scientists, researchers, and innovators in the field of cardiac pacing and electrophysiology. More than 700 of the world's most notable experts in cardiac rhythm management serve as faculty for over 250 educational sessions while more than 150 exhibitors showcase innovative products and services. Attendees can anticipate an enhanced experience with advanced learning formats and new opportunities for networking. For more information, visit WWW.HRSSESSIONS.ORG.

1 Sumeet S. Chugh et al., "Worldwide Epidemiology of Atrial Fibrillation", Circulation.2014;129:837–847

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About the Heart Rhythm Society

The Heart Rhythm Society is the international leader in science, education, and advocacy for cardiac arrhythmia professionals and patients, and the primary information resource on heart rhythm disorders. Its mission is to improve the care of patients by promoting research, education, and optimal health care policies and standards. Incorporated in 1979 and based in Washington, DC, it has a membership of more than 6,000 heart rhythm professionals in more than 72 countries around the world. For more information, visit www.HRSonline.org.

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