Laboratory of Education and Research in In Vitro Toxicology-Tox In, Faculty of Pharmacy, Universidade Federal de Goiás, Goiânia, Brazil.
Laboratory of Pharmaceutical Technology-FarmaTec, Faculty of Pharmacy, Universidade Federal de Goiás, Goiânia, Brazil.
Contact Dermatitis. 2019 Sep;81(3):194-209. doi: 10.1111/cod.13294. Epub 2019 Jun 20.
Allergic contact dermatitis caused by henna-based hair-colouring products has been associated with adulteration of henna with p-phenylenediamine (PPD).
To develop a testing approach based on in vitro techniques that address key events within the skin sensitization adverse outcome pathway in order to evaluate the allergenic potential of hair-colouring products.
The following in vitro assays were used to test the sensitizing capacity of hair dye ingredients: the micro-direct peptide reactivity assay (mDPRA); the HaCaT keratinocyte-associated interleukin (IL)-18 assay; the U937 cell line activation test (U-SENS)/IL-8 levels; the blood monocyte-derived dendritic cell test; and genomic allergen rapid detection (GARD skin). Those techniques with better human concordance were selected to evaluate the allergenic potential of 10 hair-colouring products.
In contrast to the information on the label, chromatographic analyses identified PPD in all products. The main henna biomarker, lawsone, was not detected in one of the 10 products. Among the techniques evaluated by testing hair dye ingredients, the mDPRA, the IL-18 assay, GARD skin and the U-SENS correlated better with human classification (concordances of 91.7%-100%) and were superior to the animal testing (concordance of 78.5%). Thus, these assays were used to evaluate hair-colouring products, which were classified as skin sensitizers by the use of different two-of-three approaches.
Our findings highlight the toxicological consequences of, and risks associated with, the undisclosed use of PPD in henna-based "natural" "real-life" products.
基于指甲花的染发产品引起的过敏性接触性皮炎与指甲花中掺入对苯二胺(PPD)有关。
开发一种基于体外技术的测试方法,该方法可解决皮肤致敏不良结局途径中的关键事件,以评估染发产品的致敏潜力。
使用以下体外检测方法来测试染发剂成分的致敏能力:微直接肽反应性测定法(mDPRA);HaCaT 角质形成细胞相关白细胞介素(IL)-18 测定法;U937 细胞系激活试验(U-SENS)/IL-8 水平;血液单核细胞衍生树突状细胞试验;和基因组过敏原快速检测(GARD skin)。选择那些与人类一致性更好的技术来评估 10 种染发产品的致敏潜力。
与标签上的信息相反,色谱分析在所有产品中均发现了 PPD。在这 10 种产品中的一种中,未检测到主要指甲花生物标志物,萘醌。在所评估的技术中,通过测试染发剂成分,mDPRA、IL-18 测定法、GARD skin 和 U-SENS 与人类分类(一致性为 91.7%-100%)相关性更好,优于动物试验(一致性为 78.5%)。因此,这些检测方法用于评估染发产品,这些产品通过使用两种三分之一的不同方法被归类为皮肤致敏剂。
我们的研究结果强调了在基于指甲花的“天然”“现实生活”产品中未披露使用 PPD 所带来的毒理学后果和相关风险。
