Van der Meeren A, Grillon G, Tourdes F, Rateau S, Le Gall B, Griffiths N
CEA/DSV/DRR/SRCA, Laboratory of Radiotoxicology, BP no. 12, 91680 Bruyères le Chatel, France.
Radiat Prot Dosimetry. 2007;127(1-4):50-4. doi: 10.1093/rpd/ncm250. Epub 2007 Jun 6.
Alveolar macrophages are a key element in the clearance of inhaled particles after phagocytosis, and thus participate actively in lung dose distribution and in the risk of tumour formation. We studied the influence of initial lung deposit (ILD) on lung clearance and distribution of activity from 3 d to 3 months after inhalation of two forms of PuO2 (97% 239Pu and 70% 239Pu) in rats. ILDs ranging from 2.1 to 17 kBq were used. The total activity measured using X-ray spectrometry 3 months post-inhalation, relative to the ILD, showed a similar decrease in all groups, with the remaining activity representing approximately 30% of the ILD. The total activity recovered in bronchoalveolar lavages represented approximately 60% of the total lung activity. This ratio remained stable over time for the lowest ILD tested but decreased for higher ILD. In addition, the percentage of macrophages associated with particles decreased faster with time in rats with the highest ILD. Under our experimental conditions, there were no marked differences in lung clearance between groups. However, the distribution of the activity seems to vary with the time post-exposure between low and high ILD.
肺泡巨噬细胞是吞噬后清除吸入颗粒的关键因素,因此积极参与肺部剂量分布和肿瘤形成风险。我们研究了初始肺沉积(ILD)对大鼠吸入两种形式的二氧化钚(97%的239Pu和70%的239Pu)后3天至3个月内肺部清除和活性分布的影响。使用的ILD范围为2.1至17 kBq。吸入后3个月使用X射线光谱法测量的总活性相对于ILD而言,所有组均呈现相似程度的下降,剩余活性约占ILD的30%。支气管肺泡灌洗中回收的总活性约占肺总活性的60%。对于测试的最低ILD,该比例随时间保持稳定,但对于较高的ILD则下降。此外,在ILD最高的大鼠中,与颗粒相关的巨噬细胞百分比随时间下降得更快。在我们的实验条件下,各组之间的肺部清除没有明显差异。然而,活性分布似乎在低ILD和高ILD之间随暴露后时间而变化。