Kinesiology, Vol. 46. No. 2., 2014.
Original scientific paper
Circadian variations in anaerobic threshold
Kazuki Nishimura
; Department of Global Environment Studies, Hiroshima Institute of Technology, Japan
Koji Nagasaki
; Department of Food Sciences and Biotechnology, Hiroshima Institute of Technology, Japan
Hidetaka Yamaguchi
; Department of Sports Social Management, Kibi International University, Japan
Akira Yoshioka
; Interactive Sport Education Center, Okayama University, Japan
Yuka Nose
; Department of Nutritional Sciences, Yasuda Women’s University, Japan
Sho Onodera
; Department of Health and Sports Science, Kawasaki University of Medical Welfare, Japan
Noboru Takamoto
; Department of Clinical Engineering, Hiroshima Institute of Technology, Japan
Abstract
This study aimed to determine whether certain respiratory and cardiovascular parameters associated with anaerobic threshold (AT), measured during graded exercise testing, occur at lower intensities in the morning than in the evening. Ten healthy Japanese men volunteered to participate in this study, which involved two conditions that were performed at different times of day: morning (M) exercise was performed between 9:00 and 10:00 a.m., and afternoon (A) exercise was performed between 4:00–6:00 p.m. After resting supine for 30 minutes, each subject performed graded cycle ergometer exercise testing comprising 90-second stages. Exercise intensity was initially 10 W and was increased by 10 W for each stage. Heart rate (HR), blood pressure (BP), absolute double product (DP), cardiac autonomic nervous system modulation, and ventilatory volume
(VE) were measured during each exercise stage. Ventilatory threshold (VT), the double product breaking point (DPBP), and breaking point of the natural log of high frequency (ln HF) (HFBP) were reached at a
lower exercise intensity in the M condition than in the A condition (p<.05). Values for VE at VT intensity, DP, HR, and systolic blood pressure (SBP) at DPBP were significantly lower in the M condition than in the A condition (p<.05). These data suggest that AT is reached at a lower intensity in the morning than in the afternoon, and that relative burden, as indicated by HR and SBP, is greater in the morning than in the afternoon. Exercise prescriptions that incorporate awareness of the circadian rhythms may prevent cardiac or cerebrovascular accidents during exercise.
Keywords
circadian rhythm; cardiac autonomic nervous system; double product; ventilatory volume
Hrčak ID:
131880
URI
Publication date:
30.12.2014.
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