Federal Institute for Risk Assessment, 14195 Berlin, Germany.
Arch Toxicol. 2010 Sep;84(9):681-8. doi: 10.1007/s00204-010-0532-x. Epub 2010 Mar 12.
In the absence of toxicological data, as it is the case for, e.g. naturally occurring substances and chemicals underlying the new European chemicals legislation, distinct tools to derive quantitative toxicological data are of particular interest with regard to risk assessment of substances humans are repeatedly exposed. The software package TOPKAT 6.2 version 3.1 (Accelrys Inc., San Diego, USA) is a commercially available tool containing a (sub)chronic oral low observed adverse level (LOAEL) prediction model constructed by using structures and LOAELs of 393 chemicals contained in publicly accessible data banks. Applying this tool, we tested the prediction of (sub)chronic LOAELS for 807 industrial chemicals (purity >or= 95%) by comparing the predicted values with their experimental LOAELs derived from repeated dose animal experiments performed according to standard guidelines. For 460 chemicals, a prediction could not be performed because of exclusion criteria defined in the system. They had either a lower LD50 as the predicted LOAEL (n = 214) were outside the optimum prediction space which defines the domain of applicability (n = 175), were used in the training data set (n = 155), were not known to the system (n = 50) or fulfilled other criteria for data exclusion (n = 21). Of the remaining 347 substances, 34 to 62% LOAELs were predicted within a range of 1/5 and fivefold of the experimental LOAEL (factor 5), whereas 84 and 99% of the predicted LOAELs were within a range of 1/100 and 100-fold indicating high uncertainty of the prediction. Hence, a refined prediction tool is highly warranted. However, the uncertainty of the prediction could be accounted for if an additional factor of 100 is applied in addition to standard default adjustment factor of 100 which would result in an adjustment factor of 10,000 to be able to use a predicted NOAEL for risk assessment..
在缺乏毒理学数据的情况下,例如在新的欧洲化学品法规所涉及的天然物质和化学物质的情况下,获得定量毒理学数据的独特工具对于人类反复暴露的物质的风险评估具有特别的意义。TOPKAT 6.2 版本 3.1 软件包(Accelrys Inc.,美国圣地亚哥)是一种商业上可用的工具,其中包含一个由 393 种公开可访问数据库中包含的结构和 LOAEL 构建的(亚)慢性口服低观察不良水平(LOAEL)预测模型。应用该工具,我们通过比较预测的(亚)慢性 LOAEL 值与根据标准指南进行的重复剂量动物实验得出的实验 LOAEL 值,测试了 807 种工业化学品(纯度≥95%)的(亚)慢性 LOAEL 预测。对于 460 种化学物质,由于系统中定义的排除标准,无法进行预测。它们要么是预测的 LOAEL 更低的 LD50(n = 214),要么超出了定义适用范围的最佳预测空间(n = 175),要么是在训练数据集(n = 155)中使用,系统中未知(n = 50)或满足其他数据排除标准(n = 21)。在剩余的 347 种物质中,34%至 62%的 LOAEL 值在实验 LOAEL 的 1/5 到 5 倍范围内预测(因子 5),而 84%和 99%的预测 LOAEL 值在 1/100 到 100 倍范围内,表明预测的不确定性很高。因此,非常需要一种经过改进的预测工具。但是,如果除了标准默认调整因子 100 之外再应用 100 的额外因子,就可以考虑预测的无观察不良作用水平(NOAEL)用于风险评估,从而将调整因子调整为 10,000。
