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Sorption–desorption test for functional assessment of skin treated with a lipid system that mimics epidermal lamellar bodies
Author(s) -
Moner Verónica,
Fernández Estibalitz,
del Pozo Alfonso,
Rodríguez Gelen,
Cócera Mercedes,
de la Maza Alfonso,
López Olga
Publication year - 2017
Publication title -
contact dermatitis
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.524
H-Index - 96
eISSN - 1600-0536
pISSN - 0105-1873
DOI - 10.1111/cod.12771
Subject(s) - lamellar granule , transepidermal water loss , human skin , barrier function , desorption , in vivo , stratum corneum , chemistry , lamellar structure , dermatology , medicine , pathology , biochemistry , adsorption , biology , organic chemistry , microbiology and biotechnology , pulmonary surfactant , genetics , crystallography
Summary Background Many skin diseases are associated with either increases or decreases in lamellar body secretion, or dysfunctional lamellar bodies. Consequently, diseased skin is characterized by reduced barrier function and altered lipid composition and organization. Human skin is commonly evaluated in vivo with non‐invasive biophysical techniques. The dynamic functions of the skin are evaluated with repeat measurements such as the sorption–desorption test ( SDT ). Objectives The aim of this study was to evaluate in vivo skin hydration–dehydration kinetics after treatment with a lipid system that mimics the morphology, structure and composition of lamellar bodies in both healthy and irritated human skin. Methods A patch with an aqueous solution of 2% sodium lauryl sulfate ( SLS ) was used to irritate the skin of the volunteers. The SDT was performed with the CM 820 corneometer. Results After treatment with this system, both healthy and SLS ‐irritated skin increased their ability to retain water and to release water slowly during the desorption phase. Conclusions Treatment with this system seems to reinforce the barrier function in both healthy and SLS ‐irritated human skin. Therefore, the present study provides evidence that this system could be of interest for developing future treatments for protecting and repairing the skin.

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