4.3 Article

Prolonged but not short exposure to the climate in Antarctica is associated with increased skin barrier permeability, erythema, and pigmentation

Journal

EUROPEAN JOURNAL OF DERMATOLOGY
Volume 32, Issue 3, Pages 334-337

Publisher

JOHN LIBBEY EUROTEXT LTD
DOI: 10.1684/ejd.2022.4274

Keywords

climate; transepidermal water loss; hydration; melanin; ultraviolet; inflammation; stratum corneum; exposome

Categories

Funding

  1. Bulgarian National Program for Polar Research 2017-2021

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Exposure to climate conditions in Antarctica can affect skin physiology, particularly in terms of TEWL, erythema, and melanin levels on facial skin. Prolonged contact with exposome factors may result in epidermal barrier impairment and an inflammatory response.
Background Exposome factors originating from the surrounding environment influence skin structure and physiology. Climate conditions (cold, high air humidity), solar radiation, and air pollutants induce epidermal barrier breakdown, and stimulate oxidative stress effects on the skin. It is currently unclear how skin barrier permeability, as well as skin pigmentation and inflammation, is affected by environmental factors in Antarctica. Objectives The aim of this study was to evaluate the effect of short (four days) and longer (30 days) exposure to climate conditions of Antarctica on skin physiology parameters. Materials & Methods Nineteen Caucasian healthy subjects were enrolled into two groups: Group 1 comprised nine subjects exposed to climate conditions of Antarctica for a short period (four days), and Group 2 comprised 10 subjects who spent 30 days under the same conditions. Skin physiological parameters, namely transepidermal water loss (TEWL), stratum corneum hydration, and erythema and melanin indices, were evaluated non-invasively at two locations-the cheek and volar forearm. In vivo skin carotenoid levels were assessed using a non-invasive, reflectance spectroscopy-based device. Results Facial skin displayed increased TEWL, erythema and melanin levels, while no such difference between groups could be disclosed for volar forearm skin. In addition, no significant differences were observed for hydration and skin carotenoid levels. Conclusion We disclose differences in skin physiology between the two groups, mainly affecting environment-exposed facial skin. Prolonged contact to exposome factors resulted in epidermal barrier impairment and an inflammatory response, while the increased melanin content may be a defensive mechanism of adaptation.

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