Consumer wearables can accurately monitor responses to atrial fibrillation and heart failure treatments, providing clinical data comparable to hospital assessments.


Summary: A study published in Nature Medicine has demonstrated the clinical value of using consumer wearable devices, such as fitness trackers and smartphones, to monitor heart rate and physical activity in patients with atrial fibrillation and heart failure. The study, part of the RATE-AF clinical trial, found that these wearables can provide continuous, reliable data comparable to traditional in-person hospital assessments. The researchers, using AI to analyze the data, found similar heart rate control between two medications, digoxin, and beta-blockers, highlighting the potential of wearables in routine patient care.

Key Takeaways:

  • Clinical Reliability: Consumer wearable devices can provide heart rate and physical activity data that is comparable to traditional hospital assessments, demonstrating their potential for continuous monitoring of heart treatment responses.
  • AI Integration: The study utilized artificial intelligence to analyze over 140 million data points.
  • Medication Comparison: The research showed that both digoxin and beta-blockers had similar effects on heart rate in patients with atrial fibrillation and heart failure.

Monitoring of heart rate and physical activity using consumer wearable devices was found to have clinical value for comparing the response to two treatments for atrial fibrillation and heart failure.

The study, published in Nature Medicine, examined whether a commercially available fitness tracker and smartphone could continuously monitor medication response and provide clinical information similar to in-person hospital assessment.

The wearable devices, consisting of a wristband and connected smartphone, collected a vast amount of data on the response to two different medications prescribed as part of a clinical trial called RATE-AF, funded by the National Institute for Health and Care Research. 

AI-Driven Data Analysis

Led by researchers from the cardAIc group at the University of Birmingham, the team used artificial intelligence to help analyze over 140 million data points for heart rate in 53 individuals over 20 weeks. They found that digoxin and beta-blockers had a similar effect on heart rate, even after accounting for differences in physical activity. This was in contrast to previous studies that had only assessed the short-term impact of digoxin.  

A neural network that took account of missing information was developed to avoid an over-optimistic view of the wearable data stream. Using this approach, the team found that the wearables were equivalent to standard tests often used in hospitals and clinical trials that require staff time and resources. The average age of participants in the study was 76 years, highlighting possible future value regardless of age or experience with technology.

Potential for Routine Patient Care 

“People across the world are increasingly using wearable devices in their daily lives to help monitor their activity and health status. This study shows the potential to use this new technology to assess the response to treatment and make a positive contribution to the routine care of patients,” says professor Dipak Kotecha, PhD, from the Institute of Cardiovascular Sciences at the University of Birmingham and the lead author of the study, in a release. 

He continues, “Heart conditions such as atrial fibrillation and heart failure are expected to double in prevalence over the next few decades, leading to a large burden on patients as well as substantial healthcare cost. This study is an exciting showcase for how artificial intelligence can support new ways to help treat patients better.”

The study was funded as part of the BigData@Heart consortium from the European Union’s Innovative Medicines Initiative. The RATE-AF trial was funded by the UK National Institute for Health and Care Research.

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