TY - JOUR
T1 - Roles of intensity and duration of nocturnal exercise in causing phase delays of human circadian rhythms
AU - Buxton, Orfeu M.
AU - Frank, Samuel A.
AU - L'Hermite-Balériaux, Mireille
AU - Leproult, Rachel
AU - Turek, Fred W.
AU - Van Cauter, Eve
PY - 1997/9
Y1 - 1997/9
N2 - To determine the roles of intensity and duration of nocturnal physical activity in causing rapid phase shifts of human circadian rhythms, eight healthy men were studied three times under constant conditions with no exercise, a 3-h bout of moderate-intensity exercise, or a 1-h bout of high- intensity exercise. Exercise stimulus was centered at 0100. Circadian phase was estimated from the onsets of the nocturnal elevation of plasma thyrotropin (TSH) and melatonin. Mean phase shifts of TSH onsets were -18 ± 8 (baseline), -78 ± 10 (low-intensity exercise, P < 0.01), and -95 ± 19 min (high-intensity exercise, P < 0.01). Mean phase delays of melatonin onsets were -23 ± 10 (baseline), -63 ± 8 (low-intensity exercise, P < 0.04), and - 55 ± 15 min (high-intensity exercise, P < 0.12). Taken together with our previous findings, this study indicates that nocturnal physical activity may phase delay human circadian rhythms and demonstrates that phase-shifting effects may be determined with exercise durations and intensities compatible with the demands of a real-life setting.
AB - To determine the roles of intensity and duration of nocturnal physical activity in causing rapid phase shifts of human circadian rhythms, eight healthy men were studied three times under constant conditions with no exercise, a 3-h bout of moderate-intensity exercise, or a 1-h bout of high- intensity exercise. Exercise stimulus was centered at 0100. Circadian phase was estimated from the onsets of the nocturnal elevation of plasma thyrotropin (TSH) and melatonin. Mean phase shifts of TSH onsets were -18 ± 8 (baseline), -78 ± 10 (low-intensity exercise, P < 0.01), and -95 ± 19 min (high-intensity exercise, P < 0.01). Mean phase delays of melatonin onsets were -23 ± 10 (baseline), -63 ± 8 (low-intensity exercise, P < 0.04), and - 55 ± 15 min (high-intensity exercise, P < 0.12). Taken together with our previous findings, this study indicates that nocturnal physical activity may phase delay human circadian rhythms and demonstrates that phase-shifting effects may be determined with exercise durations and intensities compatible with the demands of a real-life setting.
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U2 - 10.1152/ajpendo.1997.273.3.e536
DO - 10.1152/ajpendo.1997.273.3.e536
M3 - Article
C2 - 9316443
AN - SCOPUS:0030779112
SN - 0193-1849
VL - 273
SP - E536-E542
JO - American Journal of Physiology - Endocrinology and Metabolism
JF - American Journal of Physiology - Endocrinology and Metabolism
IS - 3 36-3
ER -