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Biochemical and Histological Changes in Rat Liver Caused by Cypermethrin and Beta-Cyfluthrin


1. Yehia MAH, El-Banna SG, Okab AB. Diazinon toxicity affects histophysiological and biochemical parameters in rabbits. Exp Toxicol Pathol 2007;59:215-25.10.1016/j.etp.2007.09.003Search in Google Scholar

2. Singh AK, Saxena PN, Sharma HN. Stress induced by betacyfluthrin, a type-2 pyrethroid, on brain biochemistry of albino rat (Rattus norvegicus). Biol Med 2009;1:74-86.Search in Google Scholar

3. Bhushan B, Saxena N, Saxena PN. Beta-cyfluthrin induced histochemical alterations in the liver of albino rat. Scand J Lab Anim Sci 2010;37:61-6.Search in Google Scholar

4. Rana N, Saxena N, Sharma HN, Saxena PN. Comparative genotoxicity of alpha-cyano pyrethroids on Drosophilamelanogaster. Entamon 2008;33:135-8.Search in Google Scholar

5. Fetoui H, Garoui EM, Zeghal N. Lambda-cyhalothrinincluded biochemical and histopathological changes in the liver of rats: Ameliorative effect of ascorbic acid. Exp Toxicol Pathol 2009;61:189-96.10.1016/j.etp.2008.08.002Search in Google Scholar

6. Khambay BPS. Pyrethroid insecticides. Pestic Outlook 2002;13:49-54.10.1039/b202996kSearch in Google Scholar

7. Saxena PN, Tomar V. Assessment of comparative hemotoxicity of cybil and fenvalerate in Rattus norvegicus. Bull Environ Contam Toxicol 2003;70:839-46.10.1007/s00128-003-0058-5Search in Google Scholar

8. Finney DJ. Probit Analysis. 3rd ed. Cambridge: Cambridge University Press; 1971.Search in Google Scholar

9. Singh VK, Saxena PN. Genotoxic potential of cypermethrin in mammalian haemopoietic system. Him J Environ Zool 2002;16:195-202.Search in Google Scholar

10. Reitman S, Frankel S. A colorimetric method for the determination of serum glutamyl oxalacetic acid glutamyl pyruvate transaminase. Am J Clin Pathol 1957;28:56-8.10.1093/ajcp/28.1.56Search in Google Scholar

11. Kind PRN, King EJ. Estimation of plasma phosphatase by determination of hydrolysed phenol with amino-antipyrine. J Clin Pathol 1954;7:322-6.10.1136/jcp.7.4.322Search in Google Scholar

12. Comission Enzymologie de la Societe Francaise de Biologie Clinique. Recommandations pour la mesure de la concentration catalytique de la lacrate deshydrogenase dans le serum humain a + 30°C [Recommendations for the measurement of catalytic lactate dehydrogenase concentration in human serum at 30 °C, in French]. Ann Biol Clin 1982;40:123-8.Search in Google Scholar

13. Montgommery R. The determination of glycogen. Arch Biochem Biophys 1957;67:378-86.10.1016/0003-9861(57)90292-8Search in Google Scholar

14. Lowry OH, Rosenbrough NJ, Farr AL, Randall RJ. Protein measurement with the folin phenol reagent. J Biol Chem 1951;193:265-75.10.1016/S0021-9258(19)52451-6Search in Google Scholar

15. Folch J, Lees M, Stanley GHS. A simple method for the isolation and purification of total lipids from animal tissues. J Biol Chem 1957;226:497-509.10.1016/S0021-9258(18)64849-5Search in Google Scholar

16. Zlatkis A, Zac BB, Boy GJB. A colorimetric method for determination of cholesterol. J Lab Clin Med 1953;41:486-96.Search in Google Scholar

17. Zilversmith DB, Davis AK, Memphis BS. Microdetermination of plasma phospholipids by trichloroacetic acid precipitation. J Lab Clin Med 1950;35:155-60.Search in Google Scholar

18. Soloni F, Sardina LC. Colorimetric microdetermination of free fatty acids. Clin Chem 1973;19:419-29.10.1093/clinchem/19.4.419Search in Google Scholar

19. Gatenby JB, Beams HM. The Microtomist’s Vade-Mecum. 11th ed. London: Churchill; 1950.Search in Google Scholar

20. Humason GL. Animal Tissue Techniques. 4th ed. San Francisco (CA): Freeman and Company; 1979.Search in Google Scholar

21. Pearse AGE. Histochemistry: Theoretical and Applied. Vol. I. London: Churchill Livingstone; 1980.Search in Google Scholar

22. Hinton RH, Grasso P. Hepatotoxicity. In: Ballantyne B, Marrs T, Syversen T, editors. General and applied toxicology. Vol. 2. New York (NY): Groves Dictionaries Inc.; 2000. p. 853-92.Search in Google Scholar

23. Tortora GJ, Grabowski SR. The digestive system. In: Principles of anatomy and physiology. 10th ed. New York (NY): John Wiley & Sons. Inc.; 2003. p. 851-903.Search in Google Scholar

24. Lodish H, Berk A, Zipursky SL, Matsudaria P, Baltimore D, Darnell J. Molecular Cell Biology. 4th ed. New York (NY): W.H. Freeman and Company; 2000.Search in Google Scholar

25. Sakr SA, Okdah YA, El-Abd SF. Gibberellin A3 induced histological and histochemical alterations in the liver of albino rats. Science Asia 2003;29:327-31.10.2306/scienceasia1513-1874.2003.29.327Search in Google Scholar

26. Sakr SA, Abdel Samei HA, Soliman ME. Exploring hepatotoxity of benomyl: histological and histochemical study of albino rats. J Med Sci 2004;4:77-83.10.3923/jms.2004.77.83Search in Google Scholar

27. Omotuyi IO, Oluyemi KA, Omofoma CO, Josiah SJ, Adesanya OA, Saalu LC. Cyfluthrin induced hepatotoxicity in rats. Afr J Biotehnol 2006;5:1909-12.Search in Google Scholar

28. El-Tawil OS, Abdel-Rehman MS. The role of enzyme induction and inhibition on cypermethrin hepatotoxicity. Pharmacol Res 2001;44:33-40.10.1006/phrs.2001.082611428908Search in Google Scholar

29. Kumar K, Saxena PN. Diazol induced liver transaminase and lactate dehydrogenase activity in female rats. Proc Acad Environ Biol 2001;9:131-3.Search in Google Scholar

30. El-Demerdash FM, Yousef MI, Kedwany FS, Baghdadi HH. Role of alpha-tocopherol and beta-carotene in ameliorating the fenvalerate induced changes in oxidative stress, haematobiochemical parameters and serum quality of male rats. J Environ Sci Health B 2004;39:443-59.10.1081/PFC-12003592915186033Search in Google Scholar

31. Doneriya R, Saxena PN. Hepatopathological changes in pyrethroid toxicity in rats. Rattus norvegicus. Indian J Environ Toxicol 2004;14:86-91.Search in Google Scholar

32. Ksheerasagar RL, Kaliwal BB. Histological and biochemical changes in the liver of albino mice on exposure to insecticide cabosulfan. Caspian J Env Sci 2006;4:67-70.Search in Google Scholar

33. Arshad N, Shabbir G, Aleem S, Arshad M. Effect of α- Tocopherol on liver biochemistry of endosulfan intoxicated mice; A preliminary study. Asian J Exp Sci 2007;21:239-46.Search in Google Scholar

34. Afshar S, Heidari R, Fasshid AA, Ilkhanipour M. Oral toxicity of fenitrothion in wistar rats: A biochemical and histopathological study. Int J Appl Environ Sci 2008;3:185-93.Search in Google Scholar

35. Singh VK, Saxena PN. Effect of cybil (cypermethrin 25 EC) and cybil-sevin (carbaryl 50 EC) combination on liver and serum phosphatases in wistar albino rats. J Ecophysiol Occup Health 2001;1:229-34.Search in Google Scholar

36. Singh VK, Dixit P, Saxena PN. Cybil induced hepatobiochemical changes in wistar rats. J Environ Biol 2005;26:725-7.Search in Google Scholar

37. Pereira C, Mapuskar K, Rao CV. Chronic toxicity of diethyl phthalate in male wistar rats a dose response study. Regul Toxicol Pharmacol 2006;45:169-77.10.1016/j.yrtph.2006.04.00616750591Search in Google Scholar

38. Kurutas EB, Doran F, Ciralik H. The effect of endosulfan on lactic dehydrogenase enzyme system in liver of Musmusculus: A histochemical study. Eur J Gen Med 2006;3:148-51.Search in Google Scholar

39. Saxena PN, Doneriya R. Hepatobiochemical response in albino rat following oral administration of cybil and hafen. Toxicol Int 2004;11:23-6.Search in Google Scholar

40. Manna S, Bhattacharya D, Mandal TK, Das S. Repeated dose toxicity of deltamethrin in rats. Indian J Phrmacol 2005;37:160-4.10.4103/0253-7613.16212Search in Google Scholar

41. Rezg R, Mornagui B, Kamoun A, El-Fazza S, Gharbi N. Effect of subchronic exposure to matathion on metabolic parameters in rats. CR Biol 2007;330:143-7.10.1016/j.crvi.2006.11.00217303541Search in Google Scholar

42. Saxena PN, Kumar K. Assessment of liver lipid profile in female rats after diazol intoxication. Indian J Environ Toxicol 2001;11:71-2.Search in Google Scholar

43. Parimala MD, Kaliwal BB. Dose-dependent estrous cycle ovarian follicles and biochemical content reversal in albino mice after exposure to mancozeb. Caspian J Env Sci 2005;3:118-31.Search in Google Scholar

44. Đikić D, Mojsović-Ćuić A, Čupor I, Benković V, Horvat- Knežević A, Lisičić D, Oršolić N. Carbendazim combned with imazalil or cypermethrin potentiate DNA damage in hepatocytes of mice. Hum Exp Toxicol 2012;5:492-505.10.1177/096032711141791021868589Search in Google Scholar

45. Key BD, Howell RD, Criddle CS. Fluorinated organics in the biosphere. Environ Sci Technol 1997;31:2445-54.10.1021/es961007cSearch in Google Scholar

46. Finar IL. Organic Chemistry. Vol. I. The Fundamental Principles. London: Longman Publishing Group; 1998.Search in Google Scholar

47. Bhushan B. Comparative hepatotoxicity under stress of cypermethrin and beta-cyfluthrin in albino rat. [PhD thesis.]. Agra: Dr. B.R. Ambedkar University; 2011.Search in Google Scholar

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