Studies on fate and toxicity of nanoalumina in male albino rats

Abstract

The purpose of this study is to follow-up the distribution, lethality percentile doses (LDs) and bioaccumulation of aluminium oxide nanoparticles (Al2O3-NPs, average diameter 9.83 ± 1.61 nm) in some tissues of male albino rats, and to evaluate its genotoxicity to the brain tissues, during acute and sublethal experiments. The LDs of Al2O3-NPs, including median lethal dose (LD50), were estimated after intraperitoneal injection. The computed LD50 at 24 and 48 h were 15.10 and 12.88 g/kg body weight (b.w.), respectively. For acute experiments, the bioaccumulation of aluminium (Al) in the brain, liver, kidneys, intestine and spleen was estimated after 48 h of injection with a single acute dose (3.9, 6.4 and 8.5 g/kg b.w.), while for sublethal experiments it was after 1, 3, 7, 14 and 28 days of injection with 1.3 g/kg b.w. once in 2 days. Multi-way analysis of variance affirmed that Al uptake, in acute experiments, was significantly affected by the injected doses, organs (brain, liver, kidneys, intestine and spleen) and their interactions, while for sublethal experiments an altogether effect based on time (1, 3, 7, 14, 28 days), doses (0 and 1.3 g), organs and their interactions was reported. In addition, Al accumulated in the brain, liver, kidney, intestine and spleen of rats administered with Al2O3-NPs were significantly higher than the corresponding controls, during acute and sublethal experiments. The uptake of Al by the spleen of rats injected with acute doses was greater than that accumulated by kidney>brain>intestine>liver, whereas the brain of rats injected with sublethal dose accumulated lesser amount of Al followed by the kidney<intestine<spleen<liver. Bioaccumulation of Al, in all studied tissues, was positively correlated with the injected doses (in acute term) and the experimental periods (in sublethal term). In the acute and sublethal experiments, comet assay parameters such as the tail intensity (i.e. DNA percentage), tail extent moment and olive tail moment were estimated using a single cell gel electrophoresis/comet assay. The results showed significant increase in DNA percentage damage in the brain cells. The obtained results indicate that bioaccumulation of Al was associated with significantly increased levels of comet parameters that depended on the doses and the experimental periods. In conclusion, Al has a high affinity to get accumulated in tissues to a level that is able to induce genotoxicity. Therefore, bioaccumulation is time, dose and organ dependant.