Acute Sleep Reduction Impairs Heart Rate Variability and Heart Rate Recovery Following Aerobic Exercise in Healthy Adults

Authors

Jocelyn Kaveney, California State University, ChicoFollow
Gracie Dupuis, California State University, ChicoFollow
Eric Lessard, California State University, ChicoFollow
Braden Wilson, California State University, ChicoFollow
Grahm McGinnis, University of Nevada, Las VegasFollow
Ryan Perkins, California State University, ChicoFollow

Abstract

INTRODUCTION: According to the CDC, ~35% of American adults are receiving an inadequate amount of sleep (/night). PURPOSE: This study aimed to investigate the effects of acute sleep reduction on heart rate variability (HRV) and heart rate recovery (HRR) following aerobic exercise. METHODS: Healthy, active adults (n=11; 26.4±5.4 yr; 45% female) were screened to ensure eligibility (i.e., meeting the CDC’s sleep recommendations of 7-9hr/night, apparently healthy, recreationally active, and non-smoking), characterize body composition via DXA and measure maximal cardiovascular capacity (VO2max). Utilizing a within subjects, repeated measures design, participants completed an initial 7d period of habitual sleep (CON) followed by a 7d period of sleep reduction (SR; sleeping ~3hr less per night). Sleep habits were assessed throughout via accelerometry (Actigraph wGT3X-BT) and sleep diary. Following CON and SR, participants completed a laboratory visit, in which 5min of supine resting HR was measured (Polar H10) prior to a 45min aerobic exercise (AE) challenge on a cycle ergometer at a workload corresponding to 70% of their VO2max. Heart rate was monitored during exercise and each minute over a 5min recovery period post-exercise. HRV metrics were analyzed via Kubios HRV Scientific (time and frequency domains). RESULTS: Sleep was reduced 31% during SR (CON: 8.1±0.3 hr/night; SR: 5.4±0.2 hr/night, p£0.05). Sleep efficiency increased (5±2%), while average number of awakenings (42±4%) and sleep fragmentation index (24±8%) decreased in SR (p£0.05). In the time domain, SR reduced SDNN 13% (CON: 68.3±1.7, SR: 59.5±1.1 ms, p£0.05), whereas RR, RMSSD, and pNN50 did change (p>0.05). In the frequency domain, SR reduced low frequency (LF) power 28% (CON: 2233.4±100.6, SR: 1607.4±93.1 ms2), LF/HF power 47% (CON: 2.5±0.2, SR: 1.3±0.1, p£0.05), and total power 27% (CON: 4535.0±210.4, SR: 3291.2±130.0, p£0.05). Very low frequency (VLF) and high frequency (HF) power did not change following SR (p>0.05). Peak exercising HR was similar between visits (CON: 158±2, SR: 157±2, p>0.05). HRR during the first minute post-exercise tended to decrease 15% after SR (CON: 42±1, SR: 36±1, p£0.10). CONCLUSION: Short term acute sleep reduction appears to reduce HRV and HRR immediately following moderate intensity exercise.

Recommended Citation

Kaveney, Jocelyn; Dupuis, Gracie; Lessard, Eric; Wilson, Braden; McGinnis, Grahm; and Perkins, Ryan (2025) "Acute Sleep Reduction Impairs Heart Rate Variability and Heart Rate Recovery Following Aerobic Exercise in Healthy Adults," International Journal of Exercise Science: Conference Proceedings: Vol. 14: Iss. 5, Article 35.
Available at: https://digitalcommons.wku.edu/ijesab/vol14/iss5/35