Body surface temperature distribution in relation to body composition in obese women

Adipose tissue levels and human obesity are known to be associated with increased heat production. At the same time, subcutaneous adipose tissue provides an insulating layer that impedes heat loss. The energy implications of obesity and body thermoregulatory mechanisms remain relatively poorly under...

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Bibliographic Details
Published inJournal of thermal biology Vol. 43; pp. 1 - 6
Main Authors Chudecka, Monika, Lubkowska, Anna, Kempińska-Podhorodecka, Agnieszka
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.07.2014
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Summary:Adipose tissue levels and human obesity are known to be associated with increased heat production. At the same time, subcutaneous adipose tissue provides an insulating layer that impedes heat loss. The energy implications of obesity and body thermoregulatory mechanisms remain relatively poorly understood. This study attempted to examine the potential relationship between body composition (subcutaneous and visceral fat) determined by bioimpedance as well as BMI (body mass index), and skin surface temperature distribution recorded at rest. One specific aim of this study was to draw a thermal map of body areas in obese women and compare this with women of normal body mass, and thus to identify body regions within which heat transfer is particularly impeded. As high fat content is a good insulator, it could reduce the body‘s ability to respond effectively to changes in environmental temperature, which would be problematic for thermal homeostasis. Our results showed that core temperature did not differ between obese and normal body mass participants, while skin temperature of most body surfaces was lower in obese subjects. The results of regression analysis showed that the mean body surface temperature (Tmean) decreased with increasing percentage of body fat (PBF) of the abdominal area. The opposite relationship was observed for the front area of the hand (simultaneous increase in Tmean and PBF). We also found a negative correlation between BMI and Tmean of the thigh areas, both the front and the back. From this it could be concluded that the mean body surface temperature is dependent on body fat. •We draw a thermal map of body areas in obese women by thermography.•We select areas within which heat transfer is particularly impeded.•Heat dissipation from distal extremities (the hands) is augmented in obesity.•Heat dissipation from central sites (e.g. abdomen) is reduced in obese women.•We examine the relationship between body composition and the surface temperature.
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ISSN:0306-4565
1879-0992
DOI:10.1016/j.jtherbio.2014.03.001