Sweat secretion from the torso during passively-induced and exercise-related hyperthermia

Thermal sweating from the human torso accounts for about half of the whole-body sweat secretion, yet its intra-segmental distribution has not been thoroughly examined. Therefore, the aim of the current study was to provide a detailed description of the distribution of eccrine sweating within the tor...

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Bibliographic Details
Published in:European journal of applied physiology 2008-09, Vol.104 (2), p.265-270
Main Authors: Machado-Moreira, Christiano A., Smith, Foske M., van den Heuvel, Anne M. J., Mekjavic, Igor B., Taylor, Nigel A. S.
Format: Article
Language:English
Subjects:
Abdomen
Adult
Biomedical and Life Sciences
Biomedicine
Body Temperature - physiology
Body Temperature Regulation - physiology
Clothing industry
Eccrine Glands - physiology
Exercise - physiology
Exocrine glands
Heart Rate - physiology
Heat
Hot Temperature
Human Physiology
Humans
Humidity
Hyperthermia
Hyperthermia, Induced
Male
Occupational Medicine/Industrial Medicine
Original Article
Rest - physiology
Skin
Sports Medicine
Sweating
Sweating - physiology
Temperature
Thorax
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Summary:Thermal sweating from the human torso accounts for about half of the whole-body sweat secretion, yet its intra-segmental distribution has not been thoroughly examined. Therefore, the aim of the current study was to provide a detailed description of the distribution of eccrine sweating within the torso during passively-induced (water-perfusion garment: 40°C) and progressively increasing, exercise-related thermal strain (36°C, 60% relative humidity). Sudomotor function was measured in ten males using ventilated sweat capsules (3.16 cm 2 ) attached to twelve sites on the ventral (four), lateral (three) and dorsal (four) torso, and upper shoulder surfaces. Sweating increased asymptotically in all sites, with the final core temperature averaging 39.7°C (±0.1) and heart rates being 181 b min −1 (±2). During exercise, the mean torso sweat rate averaged 1.35 mgcm −2 min −1 , with sweating from the lateral torso surfaces generally being the lowest. Each of the between-site comparisons with the lateral torso differed significantly ( P   0.05). The intra-segmental differences between the lateral torso and the chest, abdomen, upper- and lower-back areas were significantly accentuated during exercise. From these data, it is evident that the torso is another region that does not have a uniform distribution of thermally-induced sweating. Thus, it is no longer acceptable for researchers, modellers, sweating manikins engineers or clothing manufacturers to assume that the sweat rates for all local sites within any body segment are equivalent.
ISSN:1439-6319
1439-6327
DOI:10.1007/s00421-007-0646-x