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Development of a ModifiedIn vitroSkin Absorption Method to Study the Epidermal/Dermal Disposition of a Contact Allergen in Human Skin

Authors :
David J. Sanders
Leanne Stupart
Clive Roper
Cameron MacKay
Ruth U. Pendlington
Camilla Pease
Helen J Minter
Source :
Cutaneous and Ocular Toxicology. 27:283-294
Publication Year :
2008
Publisher :
Informa UK Limited, 2008.

Abstract

In vitro skin absorption methods exist in Organisation for Economic Co-operation and Development (OECD) guideline form (No. 428) and are used to estimate the degree of systemic penetration of chemicals through skin. More detailed kinetics of permeation through skin compartments are not described well by existing methods. This study was designed to assess the practical feasibility of generating compartmental (stratum corneum/epidermal/dermal) disposition and kinetic data of topically applied chemicals. For chemically induced effects initiated in the skin (e.g., skin allergy), the delivery of tissue concentrations of chemical will impact the incidence and severity of biological effect. Explicit data on the kinetics of chemical disposition in skin have not traditionally been needed for skin allergy risk assessment: current in vivo assays embody delivery implicitly. Under the 7th Amendment to the European Cosmetics Directive, in vivo assays (such as the local lymph node assay for skin sensitization) will not be permitted to assess cosmetic ingredients. New in vitro and in silico alternative approaches and ways of predicting risk of adverse effects in humans need to be developed, and new methods such as that described here provide a way of estimating delivered concentrations and the effect of formulation changes on that delivery. As we continue to deconstruct the contributing factors of skin allergy in humans, it will be useful to have methods available that can measure skin tissue compartment exposure levels delivered from different exposure use scenarios. Here we provide such a method. The method could also be used to generate useful data for developing in silico kinetic models of compartmental skin delivery and for refining data for skin delivery in relation to the evaluation of systemic toxicity.

Details

ISSN :
15569535 and 15569527
Volume :
27
Database :
OpenAIRE
Journal :
Cutaneous and Ocular Toxicology
Accession number :
edsair.doi.dedup.....e716358b426eacf3f23d843c1b9c584c