Cargando…
Cosmetics Europe compilation of historical serious eye damage/eye irritation in vivo data analysed by drivers of classification to support the selection of chemicals for development and evaluation of alternative methods/strategies: the Draize eye test Reference Database (DRD)
A thorough understanding of which of the effects assessed in the in vivo Draize eye test are responsible for driving UN GHS/EU CLP classification is critical for an adequate selection of chemicals to be used in the development and/or evaluation of alternative methods/strategies and for properly asse...
Autores principales: | , , , , , , , , , , , |
---|---|
Formato: | Online Artículo Texto |
Lenguaje: | English |
Publicado: |
Springer Berlin Heidelberg
2016
|
Materias: | |
Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5306081/ https://www.ncbi.nlm.nih.gov/pubmed/26997338 http://dx.doi.org/10.1007/s00204-016-1679-x |
_version_ | 1782507128297095168 |
---|---|
author | Barroso, João Pfannenbecker, Uwe Adriaens, Els Alépée, Nathalie Cluzel, Magalie De Smedt, Ann Hibatallah, Jalila Klaric, Martina Mewes, Karsten R. Millet, Marion Templier, Marie McNamee, Pauline |
author_facet | Barroso, João Pfannenbecker, Uwe Adriaens, Els Alépée, Nathalie Cluzel, Magalie De Smedt, Ann Hibatallah, Jalila Klaric, Martina Mewes, Karsten R. Millet, Marion Templier, Marie McNamee, Pauline |
author_sort | Barroso, João |
collection | PubMed |
description | A thorough understanding of which of the effects assessed in the in vivo Draize eye test are responsible for driving UN GHS/EU CLP classification is critical for an adequate selection of chemicals to be used in the development and/or evaluation of alternative methods/strategies and for properly assessing their predictive capacity and limitations. For this reason, Cosmetics Europe has compiled a database of Draize data (Draize eye test Reference Database, DRD) from external lists that were created to support past validation activities. This database contains 681 independent in vivo studies on 634 individual chemicals representing a wide range of chemical classes. A description of all the ocular effects observed in vivo, i.e. degree of severity and persistence of corneal opacity (CO), iritis, and/or conjunctiva effects, was added for each individual study in the database, and the studies were categorised according to their UN GHS/EU CLP classification and the main effect driving the classification. An evaluation of the various in vivo drivers of classification compiled in the database was performed to establish which of these are most important from a regulatory point of view. These analyses established that the most important drivers for Cat 1 Classification are (1) CO mean ≥ 3 (days 1–3) (severity) and (2) CO persistence on day 21 in the absence of severity, and those for Cat 2 classification are (3) CO mean ≥ 1 and (4) conjunctival redness mean ≥ 2. Moreover, it is shown that all classifiable effects (including persistence and CO = 4) should be present in ≥60 % of the animals to drive a classification. As a consequence, our analyses suggest the need for a critical revision of the UN GHS/EU CLP decision criteria for the Cat 1 classification of chemicals. Finally, a number of key criteria are identified that should be taken into consideration when selecting reference chemicals for the development, evaluation and/or validation of alternative methods and/or strategies for serious eye damage/eye irritation testing. Most important, the DRD is an invaluable tool for any future activity involving the selection of reference chemicals. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1007/s00204-016-1679-x) contains supplementary material, which is available to authorized users. |
format | Online Article Text |
id | pubmed-5306081 |
institution | National Center for Biotechnology Information |
language | English |
publishDate | 2016 |
publisher | Springer Berlin Heidelberg |
record_format | MEDLINE/PubMed |
spelling | pubmed-53060812017-02-24 Cosmetics Europe compilation of historical serious eye damage/eye irritation in vivo data analysed by drivers of classification to support the selection of chemicals for development and evaluation of alternative methods/strategies: the Draize eye test Reference Database (DRD) Barroso, João Pfannenbecker, Uwe Adriaens, Els Alépée, Nathalie Cluzel, Magalie De Smedt, Ann Hibatallah, Jalila Klaric, Martina Mewes, Karsten R. Millet, Marion Templier, Marie McNamee, Pauline Arch Toxicol Review Article A thorough understanding of which of the effects assessed in the in vivo Draize eye test are responsible for driving UN GHS/EU CLP classification is critical for an adequate selection of chemicals to be used in the development and/or evaluation of alternative methods/strategies and for properly assessing their predictive capacity and limitations. For this reason, Cosmetics Europe has compiled a database of Draize data (Draize eye test Reference Database, DRD) from external lists that were created to support past validation activities. This database contains 681 independent in vivo studies on 634 individual chemicals representing a wide range of chemical classes. A description of all the ocular effects observed in vivo, i.e. degree of severity and persistence of corneal opacity (CO), iritis, and/or conjunctiva effects, was added for each individual study in the database, and the studies were categorised according to their UN GHS/EU CLP classification and the main effect driving the classification. An evaluation of the various in vivo drivers of classification compiled in the database was performed to establish which of these are most important from a regulatory point of view. These analyses established that the most important drivers for Cat 1 Classification are (1) CO mean ≥ 3 (days 1–3) (severity) and (2) CO persistence on day 21 in the absence of severity, and those for Cat 2 classification are (3) CO mean ≥ 1 and (4) conjunctival redness mean ≥ 2. Moreover, it is shown that all classifiable effects (including persistence and CO = 4) should be present in ≥60 % of the animals to drive a classification. As a consequence, our analyses suggest the need for a critical revision of the UN GHS/EU CLP decision criteria for the Cat 1 classification of chemicals. Finally, a number of key criteria are identified that should be taken into consideration when selecting reference chemicals for the development, evaluation and/or validation of alternative methods and/or strategies for serious eye damage/eye irritation testing. Most important, the DRD is an invaluable tool for any future activity involving the selection of reference chemicals. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1007/s00204-016-1679-x) contains supplementary material, which is available to authorized users. Springer Berlin Heidelberg 2016-03-21 2017 /pmc/articles/PMC5306081/ /pubmed/26997338 http://dx.doi.org/10.1007/s00204-016-1679-x Text en © The Author(s) 2016 Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. |
spellingShingle | Review Article Barroso, João Pfannenbecker, Uwe Adriaens, Els Alépée, Nathalie Cluzel, Magalie De Smedt, Ann Hibatallah, Jalila Klaric, Martina Mewes, Karsten R. Millet, Marion Templier, Marie McNamee, Pauline Cosmetics Europe compilation of historical serious eye damage/eye irritation in vivo data analysed by drivers of classification to support the selection of chemicals for development and evaluation of alternative methods/strategies: the Draize eye test Reference Database (DRD) |
title | Cosmetics Europe compilation of historical serious eye damage/eye irritation in vivo data analysed by drivers of classification to support the selection of chemicals for development and evaluation of alternative methods/strategies: the Draize eye test Reference Database (DRD) |
title_full | Cosmetics Europe compilation of historical serious eye damage/eye irritation in vivo data analysed by drivers of classification to support the selection of chemicals for development and evaluation of alternative methods/strategies: the Draize eye test Reference Database (DRD) |
title_fullStr | Cosmetics Europe compilation of historical serious eye damage/eye irritation in vivo data analysed by drivers of classification to support the selection of chemicals for development and evaluation of alternative methods/strategies: the Draize eye test Reference Database (DRD) |
title_full_unstemmed | Cosmetics Europe compilation of historical serious eye damage/eye irritation in vivo data analysed by drivers of classification to support the selection of chemicals for development and evaluation of alternative methods/strategies: the Draize eye test Reference Database (DRD) |
title_short | Cosmetics Europe compilation of historical serious eye damage/eye irritation in vivo data analysed by drivers of classification to support the selection of chemicals for development and evaluation of alternative methods/strategies: the Draize eye test Reference Database (DRD) |
title_sort | cosmetics europe compilation of historical serious eye damage/eye irritation in vivo data analysed by drivers of classification to support the selection of chemicals for development and evaluation of alternative methods/strategies: the draize eye test reference database (drd) |
topic | Review Article |
url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5306081/ https://www.ncbi.nlm.nih.gov/pubmed/26997338 http://dx.doi.org/10.1007/s00204-016-1679-x |
work_keys_str_mv | AT barrosojoao cosmeticseuropecompilationofhistoricalseriouseyedamageeyeirritationinvivodataanalysedbydriversofclassificationtosupporttheselectionofchemicalsfordevelopmentandevaluationofalternativemethodsstrategiesthedraizeeyetestreferencedatabasedrd AT pfannenbeckeruwe cosmeticseuropecompilationofhistoricalseriouseyedamageeyeirritationinvivodataanalysedbydriversofclassificationtosupporttheselectionofchemicalsfordevelopmentandevaluationofalternativemethodsstrategiesthedraizeeyetestreferencedatabasedrd AT adriaensels cosmeticseuropecompilationofhistoricalseriouseyedamageeyeirritationinvivodataanalysedbydriversofclassificationtosupporttheselectionofchemicalsfordevelopmentandevaluationofalternativemethodsstrategiesthedraizeeyetestreferencedatabasedrd AT alepeenathalie cosmeticseuropecompilationofhistoricalseriouseyedamageeyeirritationinvivodataanalysedbydriversofclassificationtosupporttheselectionofchemicalsfordevelopmentandevaluationofalternativemethodsstrategiesthedraizeeyetestreferencedatabasedrd AT cluzelmagalie cosmeticseuropecompilationofhistoricalseriouseyedamageeyeirritationinvivodataanalysedbydriversofclassificationtosupporttheselectionofchemicalsfordevelopmentandevaluationofalternativemethodsstrategiesthedraizeeyetestreferencedatabasedrd AT desmedtann cosmeticseuropecompilationofhistoricalseriouseyedamageeyeirritationinvivodataanalysedbydriversofclassificationtosupporttheselectionofchemicalsfordevelopmentandevaluationofalternativemethodsstrategiesthedraizeeyetestreferencedatabasedrd AT hibatallahjalila cosmeticseuropecompilationofhistoricalseriouseyedamageeyeirritationinvivodataanalysedbydriversofclassificationtosupporttheselectionofchemicalsfordevelopmentandevaluationofalternativemethodsstrategiesthedraizeeyetestreferencedatabasedrd AT klaricmartina cosmeticseuropecompilationofhistoricalseriouseyedamageeyeirritationinvivodataanalysedbydriversofclassificationtosupporttheselectionofchemicalsfordevelopmentandevaluationofalternativemethodsstrategiesthedraizeeyetestreferencedatabasedrd AT meweskarstenr cosmeticseuropecompilationofhistoricalseriouseyedamageeyeirritationinvivodataanalysedbydriversofclassificationtosupporttheselectionofchemicalsfordevelopmentandevaluationofalternativemethodsstrategiesthedraizeeyetestreferencedatabasedrd AT milletmarion cosmeticseuropecompilationofhistoricalseriouseyedamageeyeirritationinvivodataanalysedbydriversofclassificationtosupporttheselectionofchemicalsfordevelopmentandevaluationofalternativemethodsstrategiesthedraizeeyetestreferencedatabasedrd AT templiermarie cosmeticseuropecompilationofhistoricalseriouseyedamageeyeirritationinvivodataanalysedbydriversofclassificationtosupporttheselectionofchemicalsfordevelopmentandevaluationofalternativemethodsstrategiesthedraizeeyetestreferencedatabasedrd AT mcnameepauline cosmeticseuropecompilationofhistoricalseriouseyedamageeyeirritationinvivodataanalysedbydriversofclassificationtosupporttheselectionofchemicalsfordevelopmentandevaluationofalternativemethodsstrategiesthedraizeeyetestreferencedatabasedrd |