Barbara Cravello1, Ada Ferri. 1. Health and Textile Association, Biella, Italy. barbara.cravello@tessileesalute.it
Abstract
BACKGROUND/ PURPOSE: Many authors have written about skin physiological parameters and their changes according to different environmental conditions. Nevertheless, the literature puts in evidence disagreement among different studies due to the great variability in these parameters and due to the difficulty in comparing the results obtained under different working conditions. Hence, the aim of this work is to attempt to clarify the relationship between some skin properties, such as transepidermal water loss (TEWL), skin hydration and mean skin temperature (T(sk)), and the environmental parameters of ambient temperature (T(a)) and relative humidity (RH), with the help of a climatic chamber to make the environment reliable. This work must be considered as the preliminary step of a wider project dealing with textile engineering: the results will be used in identifying criteria for textile design with the aim of producing more comfortable clothing. METHODS: Experiments were carried out in a climatic chamber with independently controlled T(a) and RH. All the combinations between three levels of T(a) (20 degrees C, 25 degrees C and 30 degrees C) and four levels of RH (25%, 45%, 65% and 85%) were used on a panel of six young female subjects. The assessments made were: skin surface hydration using an electrical capacitance method, TEWL using a Tewameter and T(sk) using a set of thermistors. RESULTS: The results showed a significant correlation between TEWL and T(a), while the RH had a weaker effect on TEWL in the temperature range under investigation. Also, T(sk) showed a higher correlation with T(a) compared with RH. Finally, skin surface hydration was found to be strongly affected by both environmental parameters. CONCLUSIONS: The analysis of experimental data resulted in the elaboration of some easy empirical models useful to evaluate the changes in TEWL, skin hydration and T(sk) in different climatic conditions. These relationships must be considered to be valid only in a restricted range of T(a) (20-30 degrees C) and RH (25-85%) for young female subjects (25-35 years old).
BACKGROUND/ PURPOSE: Many authors have written about skin physiological parameters and their changes according to different environmental conditions. Nevertheless, the literature puts in evidence disagreement among different studies due to the great variability in these parameters and due to the difficulty in comparing the results obtained under different working conditions. Hence, the aim of this work is to attempt to clarify the relationship between some skin properties, such as transepidermal water loss (TEWL), skin hydration and mean skin temperature (T(sk)), and the environmental parameters of ambient temperature (T(a)) and relative humidity (RH), with the help of a climatic chamber to make the environment reliable. This work must be considered as the preliminary step of a wider project dealing with textile engineering: the results will be used in identifying criteria for textile design with the aim of producing more comfortable clothing. METHODS: Experiments were carried out in a climatic chamber with independently controlled T(a) and RH. All the combinations between three levels of T(a) (20 degrees C, 25 degrees C and 30 degrees C) and four levels of RH (25%, 45%, 65% and 85%) were used on a panel of six young female subjects. The assessments made were: skin surface hydration using an electrical capacitance method, TEWL using a Tewameter and T(sk) using a set of thermistors. RESULTS: The results showed a significant correlation between TEWL and T(a), while the RH had a weaker effect on TEWL in the temperature range under investigation. Also, T(sk) showed a higher correlation with T(a) compared with RH. Finally, skin surface hydration was found to be strongly affected by both environmental parameters. CONCLUSIONS: The analysis of experimental data resulted in the elaboration of some easy empirical models useful to evaluate the changes in TEWL, skin hydration and T(sk) in different climatic conditions. These relationships must be considered to be valid only in a restricted range of T(a) (20-30 degrees C) and RH (25-85%) for young female subjects (25-35 years old).
Authors: Megan N Kelchen; Gopi Menon; Patrick Ten Eyck; Donald Prettypaul; Nicole K Brogden Journal: Skin Pharmacol Physiol Date: 2018-08-15 Impact factor: 3.479
Authors: Kevin Roger; Marianne Liebi; Jimmy Heimdal; Quoc Dat Pham; Emma Sparr Journal: Proc Natl Acad Sci U S A Date: 2016-08-29 Impact factor: 11.205
Authors: Anna Ezerskaia; Natallia Eduarda Uzunbajakava; Gerwin J Puppels; Johanna de Sterke; Peter J Caspers; H Paul Urbach; Babu Varghese Journal: Biomed Opt Express Date: 2018-04-27 Impact factor: 3.732
Authors: SeoYeon Lee; Min-Su Kim; Jung Hoon Kim; Jong Kyou Kwon; Byung Hoon Chi; Jin Wook Kim; In Ho Chang Journal: J Korean Med Sci Date: 2016-03-18 Impact factor: 2.153