The effect of chronic exercise training and acute exercise on power spectral analysis of heart rate variability.

Abstract

Moderate to vigorous physical activity performed regularly is cardioprotective and reduces all-cause mortality, concomitant with increased resting heart rate variability (HRV). However, there are contradictory reports regarding the effects of chronic and acute exercise on nocturnal HRV in those performing exercise well-beyond physical activity guidelines. Therefore, the purpose of this study was to compare the power spectral analysis components of HRV in middle-aged endurance athletes (EA) and recreationally active individuals (REC) and explore acute exercise effects in EA. A total of 119 EA (52, 49-57 years) and 32 REC (56, 52-60 years) were recruited to complete 24h Holter monitoring (GE SEER 1000) in the absence of exercise. Fifty one EA (52, 49-57 years) then underwent 24h Holter monitoring following an intense bout of endurance exercise. Power spectral HRV analysis was completed hourly and averaged to quantify morning (1000-1200h), evening (1900-2100h), and nocturnal (0200-0400h) HRV. EA had greater very low frequency (VLF) and low frequency (LF) (both p< 0.001) compared to REC. LF/high frequency (HF) was greater in EA at 0200-0400h (p=0.04). Among all participants, the change in HR and HF from 1000-1200 to 0200-0400h was negatively correlated (r=-0.47, p< 0.001). Following acute exercise in EA, only nocturnal HRV was assessed. VLF (p< 0.001) and HF (p=0.008) decreased, while LF/HF increased (p=0.02). These results suggest that in EA, both long-term and acute exercises increase nocturnal sympathovagal activity through an increase in LF and decrease in HF, respectively. Further work is required to understand the mechanism underlying reduced nocturnal HRV in middle-aged EA and the long-term health implications.