Multiple giant cell formation – A consequence of type II pyrethroid intoxication

Bhalli JA, Khan QM, Haq MA, Khalid AM and Nasim A. (2006). Cytozenetic analysis of Pakistani individually occupationally exposed to pesticides in a pesticide production industry. Mutagenesis21: 143–148.10.1093/mutage/gel009Search in Google Scholar

Bhushan B, Saxena N and Saxena PN. (2010). Beta-cyfluthrin induced histochemical alterations in the liver of albino rat. Scand J Lab Anim Sci37: 61–66.Search in Google Scholar

Bhushan B, Saxena PN and Saxena N. (2013). Biochemical and histological changes in rat liver caused by cypermethrin and beta-cyfluthrin. Arh Hig Rada Toksikol64: 57–67.10.2478/10004-1254-64-2013-2184Search in Google Scholar

Bhushan B and Saxena PN. (2017). Estimation of median lethal dose of cypermethrin and beta-cyfluthrin. Int J Toxicol Pharmacol Res9(3): 194–198.10.25258/ijtpr.v9i03.9070Search in Google Scholar

Bian Q, Xu LC, Wang SL, Xia YK, Tan LF, Chen JF, Song L, Chang HC, Wang XR. (2004). Study on the relation between occupational fenvalerate exposure and spermatozoa DNA damage of pesticide factory workers. Occup Environ Med61: 999–1005.10.1136/oem.2004.014597Search in Google Scholar

Finey DJ. (1971). Probit Analysis. Cambridge University Press, 303 pp.Search in Google Scholar

Gatenby JB and Beams HM. (1950). The microtomist’s vade-mecum. London J. and A. Churchill.Search in Google Scholar

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

Madkour NK. (2012). Protective effect of curcumin on oxidative stress and DNA fragmentation against lambda cyhalothrin-induced liver damage in rats. J Appl Pharm Sci2(12): 076–081.Search in Google Scholar

Pande S, Saxena PN, Bhushan B and Saxena N. (2014). Peripheral blood and bone marrow responses under stress of cypermethrin in albino rats. Interdiscip Toxicol7(1): 33–40.10.2478/intox-2014-0006Search in Google Scholar

Rana N, Saxena N, Sharma HN and Saxena PN. (2008). Comparative genotoxicity of alpha-cyano pyrethroids on Drosophila melanogaster. Entamon33: 135–138.Search in Google Scholar

Saxena PN and Gaur HK. (2016). Biochemical responses of developing stages of wild Drosophila melanogaster after beta-cyfluthrin intoxication. Eur J Bio-tech Biosci4(4): 06–08.Search in Google Scholar

Saxena PN and Bhushan B. (2017). Estimation of median lethal dose of commercial formulations of some type II pyrethroids. Jordan J Biol Sci10(3): 193–197.Search in Google Scholar

Singh VK and Saxena PN. (2002). Genotoxic potential of cypermethrin in mammalian haemopoietic system. Him J Env Zool16(2): 195–202.Search in Google Scholar