Monitoring heat strain: the effect of sensor type and location on single-site and mean skin temperature during work in the heat

The purpose of the present study was to compare the heat strain while wearing nuclear, biological, and chemical (NBC) protective clothing following a hot-wet (HW) or hot-dry (HD) heat acclimation protocol. Twenty-two males were assigned to groups HW (n = 7), HD (n = 8), or control (C, n = 7). Subjects were evaluated during continuous treadmill walking while wearing lightweight combat clothing and during intermittent exercise while wearing the NBC protective clothing. While wearing Combat clothing, greater decreases in rectal temperature (Tre), mean skin temperature [Formula: see text], and heart rate were observed for both acclimation groups. For the NBC clothing trials, lower Tre, [Formula: see text], and heart rates were observed only for group HW. The time required for Tre to increase 1.0 °C and 1.5 °C was significantly delayed for groups HW and HD. Sweat evaporation increased for HW, whereas no change was found for HD. The most significant changes in Tre, [Formula: see text], and heart rate while wearing the NBC protective clothing occur following heat acclimation that involves wearing the clothing during exercise. Key words: rectal temperature, mean skin temperature, heart rate, sweat rate

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INCREASING MEAN SKIN TEMPERATURE LINEARLY REDUCES THE VASOCONSTRICTION AND SHIVERING THRESHOLDS IN HUMANS

Anesthesiology ◽

10.1097/00000542-199409001-00251 ◽

1994 ◽

Vol 81 (SUPPLEMENT) ◽

pp. A252

Author(s):

C. Cheng ◽

T. Matsukawa ◽

A. Kurz ◽

D. I. Sessler ◽

B. Merrifield

Keyword(s):

Skin Temperature ◽

Mean Skin Temperature

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Thermoregulatory responses during competitive marathon running

Journal of Applied Physiology ◽

10.1152/jappl.1977.42.6.909 ◽

1977 ◽

Vol 42 (6) ◽

pp. 909-914 ◽

Cited By ~ 98

Author(s):

M. B. Maron ◽

J. A. Wagner ◽

S. M. Horvath

Keyword(s):

Skin Temperature ◽

Marathon Running ◽

Heat Illness ◽

Mean Skin Temperature ◽

Total Water ◽

Water Losses ◽

Thermoregulatory Responses ◽

Marked Disparity ◽

Skin Temperatures ◽

Cool Conditions

To assess thermoregulatory responses occuring under actual marathon racing conditions, rectal (Tre) and five skin temperatures were measured in two runners approximately every 9 min of a competitive marathon run under cool conditions. Race times and total water losses were: runner 1 = 162.7 min, 3.02 kg; runner 2 = 164.6 min, 2.43 kg. Mean skin temperature was similar throughout the race in the two runners, although they exhibited a marked disparity in temperature at individual skin sites. Tre plateaued after 35--45 min (runner 1 = 40.0--40.1, runner 2 = 38.9--39.2 degrees C). While runner 2 maintained a relatively constant level for the remainder of the race, runner 1 exhibited a secondary increase in Tre. Between 113 and 119 min there was a precipitous rise in Tre from 40.9 to 41.9 degrees C. Partitional calorimetric calculations suggested that a decrease in sweating was responsible for this increment. However, runner 1's ability to maintain his high Tre and running pace for the remaining 44 min of the race and exhibit no signs of heat illness indicated thermoregulation was intact.

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The effect of hand immersion on body temperature when wearing impermeable clothing

Journal of The Royal Naval Medical Service ◽

10.1136/jrnms-77-41 ◽

1991 ◽

Vol 77 (1) ◽

pp. 41-47

Author(s):

A. J. Allsopp ◽

Kerry A. Poole

Keyword(s):

Body Temperature ◽

Skin Temperature ◽

Environmental Temperature ◽

List Type ◽

Physiological Measures ◽

Total Work ◽

Mean Skin Temperature ◽

Work Time ◽

Experimental Conditions ◽

Rest Periods

AbstractThe effects of hand immersion on body temperature have been investigated in men wearing impermeable NBC clothing. Six men worked continuously at a rate of approximately 490 J.sec−1 in an environmental temperature of 30°C. Each subject was permitted to rest for a period of 20 minutes when their aural temperature reached 37.5°C, and again on reaching 38°C, and for a third time on reaching 38.5°C (three rest periods in total). Each subject completed three experimental conditions whereby, during the rest periods they either: a.Did not immerse their hands (control).b.Immersed both hands in a water bath set at 25°c.c.Immersed both hands in water at 10°C.Physiological measures of core temperature, skin temperature and heart rate were recorded at intervals throughout the experiment.Measures of mean aural temperature and mean skin temperature were significantly (P<0.05) reduced if hands were immersed during these rest periods, compared to non immersion. As a result, the total work time of subjects was extended when in the immersed conditions by some 10–20 minutes within the confines of the protocol.It is concluded that this technique of simple hand immersion may be effective in reducing heat stress where normal routes to heat loss are compromised.

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Effect of food intake on the ventilatory response to increasing core temperature during exercise

Applied Physiology Nutrition and Metabolism ◽

10.1139/apnm-2018-0069 ◽

2019 ◽

Vol 44 (1) ◽

pp. 22-30 ◽

Cited By ~ 2

Author(s):

Keiji Hayashi ◽

Nozomi Ito ◽

Yoko Ichikawa ◽

Yuichi Suzuki

Keyword(s):

Food Intake ◽

Body Temperature ◽

Skin Temperature ◽

Core Temperature ◽

Mean Skin Temperature ◽

Carbon Dioxide Elimination ◽

Transient Effect ◽

Mean Body Temperature ◽

Ventilatory Parameters ◽

Effect Of Food

Food intake increases metabolism and body temperature, which may in turn influence ventilatory responses. Our aim was to assess the effect of food intake on ventilatory sensitivity to rising core temperature during exercise. Nine healthy male subjects exercised on a cycle ergometer at 50% of peak oxygen uptake in sessions with and without prior food intake. Ventilatory sensitivity to rising core temperature was defined by the slopes of regression lines relating ventilatory parameters to core temperature. Mean skin temperature, mean body temperature (calculated from esophageal temperature and mean skin temperature), oxygen uptake, carbon dioxide elimination, minute ventilation, alveolar ventilation, and tidal volume (VT) were all significantly higher at baseline in sessions with food intake than without food intake. During exercise, esophageal temperature, mean skin temperature, mean body temperature, carbon dioxide elimination, and end-tidal CO2 pressure were all significantly higher in sessions with food intake than without it. By contrast, ventilatory parameters did not differ between sessions with and without food intake, with the exception of VT during the first 5 min of exercise. The ventilatory sensitivities to rising core temperature also did not differ, with the exception of an early transient effect on VT. Food intake increases body temperature before and during exercise. Other than during the first 5 min of exercise, food intake does not affect ventilatory parameters during exercise, despite elevation of both body temperature and metabolism. Thus, with the exception of an early transient effect on VT, ventilatory sensitivity to rising core temperature is not affected by food intake.

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Calculation of the Mean Skin Temperature in the Non-uniform Thermal Environments

Environmental Science and Engineering - Proceedings of the 11th International Symposium on Heating, Ventilation and Air Conditioning (ISHVAC 2019) ◽

10.1007/978-981-13-9520-8_143 ◽

2020 ◽

pp. 1393-1403

Author(s):

Yuemei Wang ◽

Zhiwei Lian

Keyword(s):

Skin Temperature ◽

Mean Skin Temperature ◽

Thermal Environments ◽

The Mean

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Estimation of mean skin temperature during exercise

Journal of Applied Physiology ◽

10.1152/jappl.1974.36.5.625 ◽

1974 ◽

Vol 36 (5) ◽

pp. 625-628 ◽

Cited By ~ 13

Author(s):

D. D. Lund ◽

C. V. Gisolfi

Keyword(s):

Skin Temperature ◽

Mean Skin Temperature

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The Effects of Body composition (Percent Fat) On Acclimatization to Heat

Proceedings of the Human Factors Society Annual Meeting ◽

10.1177/1071181381025001201 ◽

1981 ◽

Vol 25 (1) ◽

pp. 774-778

Author(s):

Alex Loewenthal ◽

David J. Cochran ◽

Michael W. Riley

Keyword(s):

Heart Rate ◽

Weight Loss ◽

Body Composition ◽

Skin Temperature ◽

Heat Exposure ◽

Temperature Differential ◽

Mean Skin Temperature ◽

Physiological Variables ◽

The Core ◽

Rate Of Decay

Nine fully acclimatized men falling in the lean, medium and obese categories of body composition were observed during heat exposure periods for four days following acclimatization decay periods of various lengths in order to determine the effects of body composition on the decay and reinduction of acclimatization. The physiological variables taken into consideration were core temperature, “DuBois” mean skin temperature, heart rate, weight loss due to perspiration and the temperature differential between the core and surface. All of the men were subjected to an acclimatization schedule of twelve daily sessions in order to insure that they were all fully acclimatized. Three decay, or non-exposure, periods of four, eight and twelve days were each followed by four days of reinduction. It was determined that body composition does not affect the rate of decay or reinduction of acclimatization, although this parameter as well as the extent of decay and the duration of the reinduction period does affect the physiological variables monitored in this study.

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Active cutaneous vasodilation in resting humans during mild heat stress

Journal of Applied Physiology ◽

10.1152/japplphysiol.00235.2004 ◽

2005 ◽

Vol 98 (3) ◽

pp. 829-837 ◽

Cited By ~ 37

Author(s):

Yoshi-Ichiro Kamijo ◽

Kichang Lee ◽

Gary W. Mack

Keyword(s):

Blood Flow ◽

Heat Stress ◽

Skin Temperature ◽

Skin Blood Flow ◽

Sweat Rate ◽

Mean Skin Temperature ◽

Local Skin ◽

Mild Heat ◽

Normal Core ◽

Local Sweat Rate

The role of skin temperature in reflex control of the active cutaneous vasodilator system was examined in six subjects during mild graded heat stress imposed by perfusing water at 34, 36, 38, and 40°C through a tube-lined garment. Skin sympathetic nerve activity (SSNA) was recorded from the peroneal nerve with microneurography. While monitoring esophageal, mean skin, and local skin temperatures, we recorded skin blood flow at bretylium-treated and untreated skin sites by using laser-Doppler velocimetry and local sweat rate by using capacitance hygrometry on the dorsal foot. Cutaneous vascular conductance (CVC) was calculated by dividing skin blood flow by mean arterial pressure. Mild heat stress increased mean skin temperature by 0.2 or 0.3°C every stage, but esophageal and local skin temperature did not change during the first three stages. CVC at the bretylium tosylate-treated site (CVCBT) and sweat expulsion number increased at 38 and 40°C compared with 34°C ( P < 0.05); however, CVC at the untreated site did not change. SSNA increased at 40°C ( P < 0.05, different from 34°C). However, SSNA burst amplitude increased ( P < 0.05), whereas SSNA burst duration decreased ( P < 0.05), at the same time as we observed the increase in CVCBT and sweat expulsion number. These data support the hypothesis that the active vasodilator system is activated by changes in mean skin temperature, even at normal core temperature, and illustrate the intricate competition between active vasodilator and the vasoconstrictor system for control of skin blood flow during mild heat stress.

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