多次吸入暴露下氧化铝纳米和微粒产生毒性效应的特性

M. Zemlyanova, N. Zaitseva, M. Stepankov
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引用次数: 0

摘要

介绍氧化铝纳米颗粒(Al2O3 NP)广泛应用于各种领域的纳米技术,包括化学、食品和医疗行业以及香水和化妆品生产。鉴于纳米工业的大规模发展,对Al2O3纳米颗粒的高需求反过来会导致环境空气污染,在长期暴露于环境空气中的情况下会给公众健康带来风险,对这些纳米颗粒产生的毒性作用的致病特征进行深入研究,并将其与吸入暴露下微小化学类似物产生的作用进行比较分析,以引入更有效的预防措施,似乎是有意义的。材料和方法。在Wistar大鼠实验中,我们检测了Al2O3、纳米颗粒和微米颗粒(MP)的化学性质,并对结果进行了比较分析,描述了所检测颗粒在多次吸入暴露下产生毒性作用的发病特征。后果通过颗粒大小、形状、表面积和总孔体积等参数判断,所检查的样品是纳米材料。它们与微型类似物有很大不同。相对于MPs,暴露于Al2O3 NP会导致大鼠行为发生更显著的变化。在暴露于Al2O3 NP的情况下,肺、肝、脑和血液中的铝浓度在统计学上显著增加了1.62–55.2倍。与暴露于微米级颗粒相比,这些器官中被检测元素的浓度高出1.55–7.65倍。暴露于Al2O3 NPs引起了对对照的负面影响的生化指标的变化(暴露于微米级颗粒)。对照组ALT、AST、AP、LDH活性升高,直接胆红素、GABA、谷氨酰胺和MDA水平升高。在暴露于Al2O3 NP的情况下,在肺、脑、心脏和肝脏中发现了病理形态学变化,而暴露于微米大小的类似物仅在肺中诱导了这种变化。暴露于NPs会导致许多器官的组织结构发生更明显的变化。局限性该研究仅涉及在Wistar大鼠的实验中多次吸入Al2O3 NP和MPs。结论Al2O3纳米颗粒比其微米级化学类似物毒性更大;更多的器官发生生物累积,更明显的病理形态学变化和病理功能紊乱就是证明。在制定旨在预防和尽量减少Al2O3 NP对人类健康产生的负面影响的卫生建议时,应考虑研究结果。
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Peculiarities of toxic effects produced by aluminum oxide nano- and microparticles under multiple inhalation exposure
Introduction. Aluminum oxide nanoparticles (Al2O3 NPs) are widely used in nanotechnologies employed in various branches including chemical, food, and medical industry and perfume and cosmetics production. This high demand for Al2O3 NPs, given the wide-scale development of nanoindustries, can, in its turn, lead to ambient air pollution that creates public health risks under long-term exposure to it. Given that, it seems relevant to perform profound investigation with its focus on pathogenetic features of toxic effects produced by these nanoparticles and comparatively analyze them with effects produced by a micro-sized chemical analog under inhalation exposure to introduce more effective prevention. Materials and methods. We examined chemical properties of Al2O3, nano- and microparticles (MPs) in an experiment on Wistar rats, comparatively analyzed the results and described pathogenetic features of toxic effects produced by the examined particles under multiple inhalation exposure. Results. The examined samples were a nanomaterial judging by such parameters as particle size, shape, surface area, and total pore volume. They differed substantially from their micro-sized analog. Exposure to Al2O3 NPs causes more pronounced changes in the behaviour of rats relative to MPs. Under exposure to Al2O3 NPs, aluminum concentrations were statistically significantly by 1.62–55.2 times higher in the lungs, liver, brain and blood. The concentration of the examined elements was by 1.55–7.65 times higher in these organs as compared to exposure to the micro-sized particles. Exposure to Al2O3 NPs induced changes in biochemical indicators of negative effects against the control (exposure to micro-sized particles). We established higher activity of ALT, AST, AP, LDH, and elevated levels of direct bilirubin, GABA, glutamine acid, and MDA against the same indicators in the control group. Pathomorphological changes were identified in the lungs, brain, heart, and liver under exposure to Al2O3 NPs whereas exposure to the micro-sized analog induced such changes only in the lungs. Exposure to NPs induced more apparent changes in tissue structures in many organs. Limitations. The study involved only multiple inhalation exposure to Al2O3 NPs and MPs in an experiment on Wistar rats. Conclusion. Al2O3 NPs are more toxic than their micro-sized chemical analog; this is evidenced by a greater number of organs where bioaccumulation occurs, more apparent pathomorphological changes and pathological functional disorders. The study results should be considered when developing hygienic recommendations aimed at preventing and minimizing negative effects produced by Al2O3 NPs on human health.
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来源期刊
Gigiena i sanitariia
Gigiena i sanitariia Environmental Science-Pollution
CiteScore
0.80
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0.00%
发文量
192
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