ABSTRACT
Technical grade dinitrotoluene (tg-DNT) [CH3C6H3 (NO2)2] nitroaromatic agents which are manufactured in theindustries and applied in both commercial and military in all over the world and Egypt. DNT causes malfunctions inkidneys, heart, liver, testes and mammary glands in animals and human beings, which may be considered as carcinogenic inexperimental animals and human. Moreover, taurine, a free β-amino acid with remarkable antioxidant activity, hasimportant beneficial effects on the human body; hepatoprotection, nephroprotection, cardiovascular protection,hypoglycemic impact and hypolipidemicaction. Currently, taurine level in the serum is used as early marker of breast,endometrial and colon cancers. The current research was aimed to explore the potential impacts of the antioxidantproperties of taurine as a protecting material on tg-DNT induced toxicity in the liver and kidney in male rats. 100apparently healthy male rats in 4 groups were included; the first is Frank control group, mouth feeding via gavage withdistilled water; the other groups were administered as following, taurine alone, tg-DNT alone (toxic group), taurine + tgDNT (protective group) in the second, third and fourth groups, respectively. In these groups, blood biochemistry and taurineconcentrations in serum were measured for all animals. Furthermore, histopathological examination studies for liver andkidney were done for all groups. The results showed that, the protective group has marked improvement in most biochemicalparameters than the toxic group. Histological studies revealed a significant marked disturbance in the histopathologicalarchitectures of the kidney and liver in all toxic rats. However, marked improvements in histological architectures wereobserved in protective group. The results support the ameliorative effect of taurine as a protective agent against tg-DNTtoxicity in experimental rats.
ABSTRACT
2,4,6-Trinitrotoluene (TNT) and its by-products dinitrotoluene (DNT) pose a significant threat to human health and other living organisms.However, the conventional analytical methods involved in bulky and expensive instruments are complicated and time-consuming, impeding quick and on-line determination.In this work, a facile yet effective strategy of utilizing UV-vis spectroscopy coupled with partial least squares (PLS) was proposed, through which TNT and two isomers of DNT (2,4-DNT and 2,6-DNT) in nature water could be rapidly and simultaneously determined without any pre-separation.Variable combination population analysis (VCPA) was utilized to select important feather variables and significantly improved the predictive performance of the PLS model.The calibration set contained 25 samples constructed by orthogonal array design (OAD).The predictive ability of the models was validated by an independent prediction set including 15 samples, achieving up to 0.99 of the determination coefficients (R2) for each of the analytes.The optimized models were successfully applied to determine the 3 ingredients in 8 environmental samples involving in tap, lake and two kinds of river water with the recovery values of great than 97%.Finally, the proposed method was further validated by high performance liquid chromatography method.UV-vis spectroscopy coupled with chemometrics may be used as simple and effective strategy with high potential in environmental monitoring.