Physiological Responses of Men and Women during Prolonged 40% Vo&lt;sub&gt;2&lt;/sub&gt;max Exercise at Different Ambient Temperatures

Tochihara, Yutaka

doi:10.1537/ase1911.92.1

Journal of Anthropological Society of Nippon

1984

DOI: 10.1537/ase1911.92.1

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Physiological Responses of Men and Women during Prolonged 40% Vo<sub>2</sub>max Exercise at Different Ambient Temperatures

Yutaka Tochihara

Abstract: Eight male and female physically active students performed bicycle ergometer exercises for 100min in cool(9.5), neutral (22.0) and hot (34.5*) environments. Relative humidity was 55-65% and air velocity was 20 cm/sec. Work load for each subject was based on 40% Vo2 max as determined in neutral environment. Heart rate (HR), systolic blood pressure (SBP), rectal temperature (Tre), pulmonary ventilation (Ve), oxygen uptake (Vo2) and sweat rate (SR) were measured during exercise.There were no sex differences in … Show more

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Cited by 3 publications

References 19 publications

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Circulatory responses to work at simulated altitudes under different ambient temperatures.

Katsuura¹

1985

The Annals of physiological anthropology

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Engineen'ng 260 laPan Five young rnale subjects were exposed to simulated altitudes of O m (sea level), Z,OeO m and 4,eOO m in a hypobaric chamber under ambient temperatures of 16℃ , 20"C, 24℃ and 28℃. Oxygen uptake (Vo2), cardiac output (Q ; C02 rebreathing method), arteriovenous 02 difference (AVOD), heart rate (HR), and stroke volume (SV) were rneasured during two successive submaximal exercises after 2 hours of exposure. Vo2 and SV at high altitudes were similar to those at sea level. Q and HR at a given "o2 significantly increased at high altitudes, and AVOD decreased at high altitudes. No effect of ambient temperature on Q and AVOD was found, but HR showed a combined effect of temperature and altitude : at sea level and at an altitude of 2,OOO m, HR tended to increase when temperature increased ; but at an altitude of 4,OOO m, HR at low temperature was equal to the Iever at high temperature. These results indicated the possibility of vasodilation in the peripheral region even at low ambient temperature at high altitudes.

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Circulatory responses to work at simulated altitudes under different ambient temperatures.

Katsuura¹

1985

The Annals of physiological anthropology

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Physiological Responses of Women during Exercise under Dry-Heat Condition in Winter and Summer.

Keatisuwan

Ohnaka²,

Tochihara³

1996

Appl Human Sci

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Fourteen young Japanese women were exposed to a dry-heat condition (Ta = 40 degrees C, rh = 30%) both in winter and summer. During an exposure for 110 min, they were rested on a bicycle ergometer for 20 min, exercised with an intensity of 40% Vo2 max for 60 min and recovery for 30 min. Their rectal and skin temperatures, and heart rate were determined every minute. Total sweat loss and dripping sweat were recorded throughout the experiment by independent bed balances which connected to a computer processor with an accuracy of 1 g. Sweat capsule with filter paper was used to measure sodium concentration on the forearm and back sites. Rectal temperature was not significantly different between winter and summer. Mean skin temperature was significantly higher in summer than in winter during exercise while heart rate was significantly lower in summer than in winter. Sweat evaporation and dripping in summer showed a tendency to increase much more than these in winter, but there were not significantly different. Sweat sodium concentration were significantly lower in summer than that in winter. It was found that sweating responses were not influenced by seasonal variation during exercise in dry-heat except the sweat sodium concentration.

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Physiological Responses of Men and Women during Exercise in Hot Environments with Equivalent WBGT.

Keatisuwan¹,

Ohnaka

Tochihara³

1996

Appl Human Sci

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Eight Japanese men and women participated in this study. They were randomly exposed to two environments: hot-dry; HD (Ta = 40 degrees C, rh 30%, wet bulb globe temperature (WBGT) = 32 degrees C) and hot-wet; HW (Ta = 31 degrees C, rh = 80%, WBGT = 32 degrees C) for 110 min. During the exposure, they rested on a bicycle ergometer for 20 min during rest and 30 min during recovery, then they pedaled it with an intensity of 40% VO2 max for 60 min. Tre, Tsk, and HR were recorded every minute. Total sweat loss and dripping were measured by independent bed balances which was connected to a computer processing with an accuracy of 1 g throughout the experiment. Sweat sodium concentration at forearm and back sites were collected by sweat capsule technique. These results showed that delta Tre, Tsk, evaporated sweat, dripping sweat, body heat storage of both sexes in HD were significantly higher than these in HW during exercise. HR of men in HD at the end of recovery was slightly higher than that of women. Whereas the sweat sodium concentration at forearm and back sites in both sexes remained unchanged either in HD or HW environment, it was found that HD was more stressful than HW environment under equivalent WBGT.

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Physiological Responses of Men and Women during Prolonged 40% Vo<sub>2</sub>max Exercise at Different Ambient Temperatures

Cited by 3 publications

References 19 publications

Circulatory responses to work at simulated altitudes under different ambient temperatures.

Circulatory responses to work at simulated altitudes under different ambient temperatures.

Physiological Responses of Women during Exercise under Dry-Heat Condition in Winter and Summer.

Physiological Responses of Men and Women during Exercise in Hot Environments with Equivalent WBGT.

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