Veterinary World (Sep 2013)

Toxicopathological interaction of lead and cadmium and amelioration with N-Acetyl-L-Cysteine

  • B. Anilkumar,
  • A. Gopala Reddy,
  • A. Anand Kumar,
  • G. Ambica,
  • C. Haritha

DOI
https://doi.org/10.14202/vetworld.2013.823-827
Journal volume & issue
Vol. 6, no. 10
pp. 823 – 827

Abstract

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Aim: To investigate the nephrotoxicity induced by the combined exposure of lead (Pb) and cadmium (Cd) and its ameliorationwith N-acetyl-L-cysteine (NAC).Materials and Methods: To evaluate the nephrotoxicity of Pb and Cd, the present study was taken up with a total of 48 malewistar rats, divided uniformly into eight groups each with 6 rats. Groups I and II were kept as untreated control and NACcontrol, respectively. Groups III, IV and V served as toxic control groups viz., Pb, Cd and combination of Pb+ Cd @ 1000, 300and 1000+300 ppm, respectively. Whereas groups VI, VII and VIII were co exposed with NAC and served as therapeuticgroups (Pb, Cd and combination of Pb+ Cd @ 1000, 300 and 1000+300 ppm, respectively and NAC @ 300mg/ kg). Theexperiment was carried out for 3 months and kidney tissues were collected for histopathological and electron microscopicstudy at the end of the experiment.Results: Histopathological examination of kidney tissue revealed marked alterations and electron microscopic observationsalso showed marked ultrastructural changes and these changes were more pronounced in Pb and Cd co exposure group (group5) than the Pb and Cd alone exposed groups (groups 3 and 4), respectively. We also observed a significant (p<0.05) elevation inthe serum creatinine levels. Use of the NAC counteracted the all toxic effects by chelating these metals, thereby reducing theiraccumulation and NAC also demonstrated its antioxidant properties, as judged by a significant reduction in the serumcreatinine levels.Conclusion: We conclude that the co-existence of these metals showed a positive pharmacodynamic interaction andsignificant improvement was noticed after NAC therapy.

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