Measuring resting heart rate during daily life using wearable technology: Examining the impact of behavioral context and methodological criteria

Measuring resting heart rate during daily life using wearable technology: Examining the impact of behavioral context and methodological criteria

Objective Advances in the collection of high-quality, continuous electrocardiography (ECG) data via wearable technology have the potential to transform heart rate (HR) measurement in daily life. This study aimed to characterize the impact of methodological criteria and behavioral context on estimate...

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Bibliographic Details
Main Authors: F Elizabeth Godkin, Karen Van Ooteghem, Kit B Beyer, Kyle Weber, Benjamin F Cornish, Ada Tang, Kaylena Ehgoetz Martens, William E McIlroy
Format: Article
Language:English
Published: SAGE Publishing 2025-08-01
Series:Digital Health
Online Access:https://doi.org/10.1177/20552076251367506
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Summary:Objective Advances in the collection of high-quality, continuous electrocardiography (ECG) data via wearable technology have the potential to transform heart rate (HR) measurement in daily life. This study aimed to characterize the impact of methodological criteria and behavioral context on estimates of resting heart rate (RHR) to guide recommendations for a standardized approach to measure daily life RHR. Methods Ten adults (9 female, 61 ± 12 years) wore a chest-mounted ECG device and wrist and ankle movement sensors continuously for 7–10 days. Following signal quality screening and beat-to-beat calculations, HR was analyzed using rolling averages of 15-, 30-, and 60-s windows within periods of device-detected sedentary behavior and sleep. ECG data during sedentary and sleep were compared for differences in: (1) RHR, (2) between-day consistency of daily RHR, and (3) HR median and range. Results During sedentary and sleep, respectively, there was no difference in RHR (56 ± 7 vs. 54 ± 7 bpm, p  = 0.055) or in between-day consistency of RHR (coefficient of variation: 6 ± 3% vs. 5 ± 3%, p  = 0.12; maximum between-day range of RHR=14 bpm). However, the median HR (71 ± 6 vs. 62 ± 7 bpm, p  = 0.001) and HR range (35 ± 6 vs. 23 ± 7 bpm, p  < 0.01) were significantly greater during sedentary versus sleep. Conclusions Behavioral context and method of analysis impact ECG-based HR measures at rest. This study recommends a novel wearable-based method for measuring daily life RHR that maximizes use of available data and confronts variability that exists with extended monitoring. Use of a standard method for measuring daily life RHR may advance the use of HR to inform clinical and/or personal health decisions.
ISSN:2055-2076

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