Thermal sensitivity mapping - warmth and cold detection thresholds of the human torso

• Published in: Journal of thermal biology Vol. 93; p. 102718
• Main Authors: Schmidt, Daniel, Schlee, Guenther, Milani, Thomas L., Germano, Andresa M.C.
• Format: Journal Article
• Language: English
• Published: Oxford Elsevier Ltd 01.10.2020; Elsevier BV
• Subjects: CDT; cold; fabrics; females; Gender; humans; Investigations; Males; Mapping; Scapula; Skin; Textile industry; Thermal sensitivity; Thermal thresholds; Thermoregulation; Torso; WDT; Torso; Thermal thresholds; CDT; Skin; Thermal sensitivity; WDT
• ISSN: 0306-4565; 1879-0992
• DOI: 10.1016/j.jtherbio.2020.102718

Skin as the largest organ of the human body accomplishes many important functions, including thermoregulation. In this context, investigating cold (CDT) and warmth detection thresholds (WDT) constitutes an important research branch, and investigating thermal thresholds has a significant impact on the clothing and fabric textile industry. In this regard, not only the extremities, but also torso regions are of high relevance. However, only few examinations have conducted detailed mapping studies of the human torso. Additionally, some of these studies show certain methodological limitations. Furthermore, the issue of whether cutaneous thermal sensitivity is gender-dependent is still controversial. Therefore, the present study investigated the cutaneous thermal sensitivity (CDT, WDT) of 42 male and female young and healthy subjects. Measurements were taken at 11 anatomical regions. We found that gender plays an important role when investigating thermal thresholds: Females tended to be more sensitive than males. We also found considerable differences between the tested regions, even within the anterior torso, for example. We identified locations which were constantly sensitive (lower back), while others were consistently insensitive (e.g. scapula). We also detected greater data variability for males compared to females, and for WDT compared to CDT. Furthermore, mainly for WDT, we found a proximal-to-distal increase of thermal torso and upper arm sensitivity. In line with previous investigations, our subjects were more sensitive to cold than to warmth. The findings of this study have important implications. First, our data may complement basic research, e.g. in terms of reference data of body regional maps. Second, our data provides important insights that could be leveraged in the textile industry, and also used to optimize current broadly applicable test methods and tools, like thermal manikins and thermophysiological models. •Measuring thermal sensitivity is important for the textile industry, for example.•Mappings of cold and warmth detection thresholds of torso are scarce.•We found regional differences of thermal sensitivity of various torso locations.•Our results help developing thermal manikins or modeling thermoregulative responses.