ADAMA Deutschland GmbH, Cologne, Germany.
University of Surrey, Guildford, United Kingdom.
Regul Toxicol Pharmacol. 2022 Jul;132:105184. doi: 10.1016/j.yrtph.2022.105184. Epub 2022 May 13.
The dermal absorption potential of C-Caffeine applied as a 4 mg/mL concentration (10 μL/cm finite dose) was investigated in six laboratories under Good Laboratory Practice conditions using an OECD TG 428-compliant in vitro assay with flow-through cells and split-thickness human skin. Potential sources of variation were reduced by a standardized protocol, test item and skin source. Particularly, skin samples from same donors were distributed over two repeats and between labs in a non-random, stratified design. Very similar recovery was achieved in the various assay compartments between laboratories, repeats and donors, demonstrating that the assay can be robustly and reliably performed. The absorption in one laboratory was 5-fold higher than in the others. This did not clearly correlate with skin integrity parameters but might be associated with an accidental COVID-19 pandemic-related interruption in sample shipment. It is possible that other factors may affect dermal absorption variation not routinely assessed or considered in the current method. The mean receptor fluid recovery, potential absorption (recovery in receptor fluid and skin except tape strips 1 and 2) and mass balance of caffeine was 6.99%, 7.14% and 99.13%, respectively, across all and 3.87%, 3.96% and 99.00% in the subset of five laboratories.
在符合 OECD TG 428 标准的体外流动细胞和人体皮肤切片试验中,使用 4mg/mL 浓度(10μL/cm 有限剂量)的 C-咖啡因,在六个实验室中研究了其经皮吸收潜力。通过标准化方案、测试品和皮肤来源,减少了潜在的变异性来源。特别是,来自同一供体的皮肤样本在两次重复和实验室之间以非随机、分层设计进行分配。在不同实验室、重复和供体之间,各个试验舱室中均实现了非常相似的回收率,证明该试验具有稳健性和可靠性。一个实验室的吸收量是其他实验室的 5 倍。这与皮肤完整性参数没有明显的相关性,但可能与 COVID-19 大流行期间样本运输的意外中断有关。可能还有其他因素会影响皮肤吸收的变异性,但这些因素在当前方法中未被常规评估或考虑。在所有实验室中,受体液的平均回收率、潜在吸收量(受体液和皮肤中的吸收量,不包括 1 号和 2 号胶带条)和咖啡因的质量平衡分别为 6.99%、7.14%和 99.13%,而在五个实验室的子集中,分别为 3.87%、3.96%和 99.00%。
