Assessing Skin Sensitization Hazard in Mice and Men Using Non-animal Test Methods

Overview

Journal Regul Toxicol Pharmacol

Publisher Elsevier

Specialties Pharmacology
Toxicology

Date 2014 Dec 27

PMID 25541156

Citations 54

Authors

Daniel Urbisch

Annette Mehling

Katharina Guth

Tzutzuy Ramirez

Naveed Honarvar

Susanne Kolle

Robert Landsiedel

Joanna Jaworska

Petra S Kern

Frank Gerberick

Andreas Natsch

Roger Emter

Takao Ashikaga

Masaaki Miyazawa

Hitoshi Sakaguchi

Affiliations

Soon will be listed here.

Abstract

Sensitization, the prerequisite event in the development of allergic contact dermatitis, is a key parameter in both hazard and risk assessments. The pathways involved have recently been formally described in the OECD adverse outcome pathway (AOP) for skin sensitization. One single non-animal test method will not be sufficient to fully address this AOP and in many cases the use of a battery of tests will be necessary. A number of methods are now fully developed and validated. In order to facilitate acceptance of these methods by both the regulatory and scientific communities, results of the single test methods (DPRA, KeratinoSens, LuSens, h-CLAT, (m)MUSST) as well for a the simple '2 out of 3' ITS for 213 substances have been compiled and qualitatively compared to both animal and human data. The dataset was also used to define different mechanistic domains by probable protein-binding mechanisms. In general, the non-animal test methods exhibited good predictivities when compared to local lymph node assay (LLNA) data and even better predictivities when compared to human data. The '2 out of 3' prediction model achieved accuracies of 90% or 79% when compared to human or LLNA data, respectively and thereby even slightly exceeded that of the LLNA.

Citing Articles

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Development of a novel in vitro respiratory sensitization assay and its application in an integrated testing strategy (ITS).

Han Y, Kim H, Kim H Arch Toxicol. 2024; 99(2):775-785.

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Limitations and Modifications of Skin Sensitization NAMs for Testing Inorganic Nanomaterials.

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Deriving a Continuous Point of Departure for Skin Sensitization Risk Assessment Using a Bayesian Network Model.

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