Refinement of the acute inhalation limit test for inert, nano-sized dusts by an in silico dosimetry-based evaluation: case study for the dissolution of a regulatory dilemma

IF 3.6 Q2 TOXICOLOGY
Heidi Stratmann, Lan Ma-Hock, Simone Tangermann, Richard A. Corley
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Abstract

This case study aims to describe the dilemma faced when exposing rats to very high concentrations of fine, pulverulent materials for acute inhalation studies and to address the regulatory question of whether the effects seen here are relevant to humans and the subject of classification according to the Globally Harmonized System of Classification and Labeling of Chemicals (GHS). Many powders match the definition of nanomaterials in the EU; therefore, information on acute inhalation testing of powders up to the GHS cutoff of 5 mg/L is required. However, testing rats at such a high aerosol concentration can cause physical obstruction of the airways and even mortality by suffocation. Therefore, to evaluate whether the physical effects on airway obstruction in rats exposed to 5 mg/L for 4 hours and alternative exposures to 1 and 2 mg/L are relevant for humans, an in silico evaluation of aerosol deposition was conducted using the multiple-path particle dosimetry (MPPD) model. For this evaluation, actual exposure conditions for an organic, nano-sized pigment which produced 100% lethality in rats at 5 mg/L, but not at 1 mg/L, were used to assess the potential for airway obstruction in rats and accordingly in humans. As an indicator of the potential for airway obstruction, the ratio of the diameter of the deposited, aggregated aerosol to airway diameter was calculated for each exposure condition. For rats exposed to 5 mg/L for 4 h, approximately 75% of tracheobronchial and 22% of pulmonary/alveolar airways were considered vulnerable to significant or complete obstruction (ratios >0.5). In humans, an equivalent exposure resulted in just over 96% of human tracheobronchial airways that received deposited mass to airway diameter ratios between 0.3 and 0.4 (nasal) or 0.4 and 0.5 (oral), with no airways with ratios >0.5. For the pulmonary/alveolar region, ∼88% of the airways following nasal or oral breathing were predicted to have deposited aerosol diameter to airway diameter ratios <0.1, with no airways with ratios >0.5. Thus, the in silico results obtained for rats are in line with the pathological findings of the animal test. The predicted results in humans, however, affirm the hypothesis of a rat-specific high dose effect which does not justify a classification according to GHS.
通过基于硅计量学的评估完善惰性纳米粉尘的急性吸入限值测试:化解监管困境的案例研究
本案例研究旨在描述将大鼠暴露于非常高浓度的细粉状物质进行急性吸入研究时所面临的困境,并解决这里所看到的影响是否与人类有关的监管问题,以及根据全球化学品统一分类和标签系统(GHS)进行分类的主题。许多粉末符合欧盟对纳米材料的定义;因此,需要提供关于粉末急性吸入试验的信息,直至GHS临界值为5毫克/升。然而,在如此高的气溶胶浓度下对大鼠进行测试会导致呼吸道的物理阻塞,甚至窒息死亡。因此,为了评估暴露于5mg /L 4小时以及交替暴露于1和2mg /L的大鼠对气道阻塞的物理影响是否与人类相关,我们使用多路径颗粒剂量学(MPPD)模型对气溶胶沉积进行了计算机评估。在这项评估中,使用了一种有机纳米级色素的实际暴露条件,该色素在5mg /L时对大鼠产生100%的致死率,而在1mg /L时却没有,以评估大鼠和人类气道阻塞的可能性。作为潜在气道阻塞的指标,计算了每个暴露条件下沉积、聚集的气溶胶直径与气道直径的比值。对于暴露于5mg /L 4小时的大鼠,大约75%的气管支气管和22%的肺/肺泡气道被认为容易发生严重或完全阻塞(比率>0.5)。在人类中,同等暴露导致96%以上的人类气管支气管接收到沉积质量与气道直径之比在0.3 - 0.4(鼻)或0.4 - 0.5(口)之间,没有气道的比例大于0.5。对于肺/肺泡区,预计鼻或口呼吸后约88%的气道沉积气溶胶直径与气道直径之比为0.5。因此,大鼠的计算机结果与动物实验的病理结果是一致的。然而,对人类的预测结果证实了一种大鼠特异性高剂量效应的假设,这并不能证明根据GHS进行分类是合理的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.80
自引率
0.00%
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审稿时长
13 weeks
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