http://orcid.org/0000-0002-6104-9305
References
- Ahmad, A., and Ahmad, M., 2017. Deciphering the toxic effects of organochlorine pesticide,dicofol on human RBCs and lymphocytes. Pesticide biochemistry and physiology, 143, 127–134.
- Al-Assiuty, A.N., et al., 2014. Effects of fungicides and biofungicides on population density and community structure of soil oribatid mites. Science of the total environment, 466–467, 412–420.
- Ali, T., et al., 2018. Pesticide genotoxicity in cotton picking women in Pakistan evaluated using comet assay. Drug and chemical toxicology, 41 (2), 213–220.
- Allen, J.W., et al., 2006. Toxicity profiles in mice treated with hepatotumorigenic and non-hepatotumorigenic triazole conazole fungicides: propiconazole, triadimefon, and myclobutanil. Toxicologic pathology, 34 (7), 853–862.
- Alves, J.S., et al., 2016. Investigation of potential biomarkers for the early diagnosis of cellular stability after the exposure of agricultural workers to pesticides. Anais da academia brasileira de ciências, 88 (1), 349–360.
- Anderson, D., et al., 2013. The comet assay in human biomonitoring. Methods in molecular biology, 1044, 347–362.
- Araldi, R.P., et al., 2015. Using the comet and micronucleus assays for genotoxicity studies: a review. Biomedicine & pharmacotherapy, 72, 74–82.
- Azqueta, A., et al., 2014. Comet assay to measure DNA repair: approach and applications. Frontiers in genetics, 5, 288–288.
- Bakuradze, T., and Richling, E., 2015. Comparison of different DNA staining methods in the comet assay. Frontiers in Genetics. Conference Abstract: ICAW 2015 – 11th International Comet Assay Workshop.
- Bayram, S., et al., 2016. Lymphocites, genotoxicity and cytotoxicity of copper oxychloride in cultured human lymphocytes using cytogenetic and molecular tests. Cytotechnology, 68 (5), 2027–2036.
- Benedetti, D., et al., 2018. DNA damage and epigenetic alteration in soybean farmers exposed to complex mixture of pesticides. Mutagenesis, 33 (1), 87–95.
- Boros, L.G., and William, R.D., 2001. Isofenphos induced metabolic changes in K562 myeloid blast cells%&” . Leukemia research , 25 (10), 883–890.
- Burlinson, B., et al., 2007. Fourth International Workgroup on Genotoxicity testing: results of the in vivo Comet assay workgroup. Mutation research, 627 (1), 31–35.
- Burstyn, I., and De Roos, A.J., 2016. Visualizing the heterogeneity of effects in the analysis of associations of multiple myeloma with glyphosate use. Comments on Sorahan, T. Multiple myeloma and glyphosate use: a re-analysis of US Agricultural Health Study (AHS) Data. Int. J. Environ. Res. Public Health 2015, 12, 1548–1559. International journal of environmental research and public health, 14 (1), E5.
- Cabral, J.R., et al., 1990. Carcinogenicity studies with deltamethrin in mice and rats. Cancer letters, 49 (2), 147–152.
- Calviello, G., et al., 2006. DNA damage and apoptosis induction by the pesticide Mancozeb in rat cells: involvement of the oxidative mechanism. Toxicology and applied pharmacology, 211 (2), 87–96.
- Carbajal-López, Y., et al., 2016. Biomonitoring of agricultural workers exposed to pesticide mixtures in Guerrero state, Mexico, with comet assay and micronucleus test. Environmental science and pollution research, 23 (3), 2513–2520.
- Collins, A.R., et al., 1997. The Comet Assay: what can it really tell us? Mutation research, 375 (2), 183–193.
- Collins, A.R., et al., 2001. Inter-individual differences in repair of DNA base oxidation, measured in vitro with the comet assay. Mutagenesis, 16 (4), 297–301.
- Collins, A.R., 2014. Measuring oxidative damage to DNA and its repair with the comet assay. Biochimica et biophysica acta, 1840 (2), 794–800.
- Collins, A., et al., 2014. The comet assay as a tool for human biomonitoring studies: the ComNet project. Mutation research/Reviews in mutation research, 759, 27–39.
- Cui, Y., et al., 2011. Genotoxicity of Chlorpyrifos and cypermethrin to ICR mouse hepatocytes. Toxicology mechanisms and methods, 21 (1), 70–74.
- De Roos, A.J., et al., 2005. Cancer incidence among glyphosate-exposed pesticide applicators in the Agricultural Health Study. Environmental health perspectives, 113 (1), 49–54.
- Diaz, S., et al., 2015. Toxicity induced by dieldrin and Chlorpyrifos in the freshwater crayfish Cambarellus montezumae (Cambaridae). Revista de biología tropical, 63 (1), 83–96.
- Di Giuseppe, D., et al., 2014. Cigarette smoking and risk of rheumatoid arthritis: a dose–response meta-analysis. Arthritis research & therapy, 16 (2), R61.
- Dosemeci, M., et al., 2002. A quantitative approach for estimating exposure to pesticides in the agricultural health study. The annals of occupational hygiene, 46 (2), 245–260.
- Egeghy, P.P., et al., 2011. Review of pesticide urinary biomarker measurements from selected US EPA children’s observational exposure studies. International journal of environmental research and public health, 8 (5), 1727–1754.
- Ezzi, L., et al., 2016. Histopathological and genotoxic effects of chlorpyrifos in rats. Environmental science and pollution research international, 23 (5), 4859–4867.
- Ferri, R., 2018. Artificial neural networks (ANNs) for Comet image classification. https://github.com/lelecobain/CometAssayANN [Accessed May 2018].
- Gandhi, G., et al., 1995. Genotoxic effects of Deltamethrin in the mouse bone marrow micronucleus assay. Mutation research, 346 (4), 203–206.
- George, J., and Shukla, Y., 2013. Early changes in proteome levels upon acute Deltamethrin exposure in mammalian skin system associated with its neoplastic transformation potential. The journal of toxicological sciences, 38 (4), 629–642.
- Gompertz, D., 1996. Selected pesticides. In: WHO, 1996. Biological monitoring of chemical exposure in the workplace. Guidelines. WHO/HPR/OCH. 96, 1: 237–251.
- Gupta, R.C., 2004. Brain regional heterogeneity and toxicological mechanisms of organophosphates and carbamates. Toxicology mechanisms and methods, 14 (3), 103–143.
- Hartmann, A., et al., 2003a. Recommendations for conducting the in vivo alkaline Comet assay. Mutagenesis, 18 (1), 45–51.
- Hartmann, A., et al., 2003b. Comparative study with the alkaline Comet Assay and the chromosome aberration test. Mutation research, 536 (1–2), 27–38.
- Harvey, L.I., and McArdle, H.J., 2008. Biomarkers of copper status: a brief update. British journal of nutrition, 99 (3), S10–S13.
- Higo, A., et al., 1996. Photoallergic contact dermatitis from mancozeb, an agricultural fungicide. Contact dermatitis, 35 (3), 183.
- Hilgert Jacobsen-Pereira, C., et al., 2018. Markers of genotoxicity and oxidative stress in farmers exposed to pesticides. Ecotoxicology and environmental safety, 148, 177–183.
- Hoffmann, H., and Speit, G., 2005. Assessment of DNA damage in peripheral blood of heavy smokers with the comet assay and the micronucleus test. Mutation research, 581 (1–2), 105–114.
- How, V., et al., 2015. Characterization of risk factors for DNA damage among paddy farm worker exposed to mixtures of organophosphates. Archives of environmental & occupational health, 70 (2), 102–190.
- Intranuovo, G., et al., 2018. Assessment of DNA damages in lymphocytes of agricultural workers exposed to pesticides by comet assay in a cross-sectional study. Biomarkers, 23 (5), 462–473.
- Kahl, V.F.S., et al., 2018. Role of PON1, SOD2, OGG1, XRCC1, and XRCC4 polymorphisms on modulation of DNA damage in workers occupationally exposed to pesticides. Ecotoxicology and environmental safety, 159, 164–171.
- Lebailly, P., et al., 2015. DNA damage in B and T lymphocytes of farmers during one pesticide spraying season. International archives of occupational and environmental health, 88 (7), 963–972.
- Leng, G., et al., 2003. Pyrethroids used indoors-biological monitoring of exposure to pyrethroids following an indoor pest control operation. International journal of hygiene and environmental health, 206 (2), 85–92.
- Lindahl, T., and Andersson, A., 1972. Rate of chain breakage at apurinic sites in double-stranded deoxyribonucleic acid. Biochemistry, 11 (19), 3618–3623.
- Liu, T.X., and Stansly, P.A., 1995. Toxicity and repellency of some biorational insecticides to Bemisia argentifolii on tomato leaves. Entomologia experimentalis et applicata, 74 (2), 137–143.
- Moller, P., 2006. Assessment of reference values for DNA damage detected by the comet assay in human blood cell DNA. Mutation research, 612 (2), 84–104.
- Perdichizzi, S., et al., 2014. Cancer-related genes transcriptionally induced by the fungicide penconazole. Toxicology in vitro, 28 (1), 125–130.
- Pérez-Rodríguez, P., et al., 2013. Modeling the influence of raindrop size on the wash-off losses of copper-based fungicides sprayed on potato (Solanum tuberosum L.) leaves. Journal of environmental science and health, 48 (9), 737–746.
- Polledri, E., Mercadante, R., and Fustinoni, S., 2018. Determination of tebuconazole and penconazole fungicides in rat and human hair by liquid chromatography/tandem mass spectrometry. Rapid communications in mass spectrometry, 32 (15), 1243–1249.
- Pu, X., Wang, Z., and Klaunig, J.E., 2016. Cryopreservation of human blood for alkaline and Fpg-modified comet assay. Toxicology mechanisms and methods, 26 (3), 196–201.
- Wang, Q.L., et al., 2013. Risk assessment of mouse gastric tissue cancer induced by dichlorvos and dimethoate. Oncology letters, 5 (4), 1385–1389.
- Rohlman, D.S., et al., 2014. Characterizing exposures and neurobehavioral performance in Egyptian adolescent pesticide applicators. Metabolic brain disease, 29 (3), 845–855.
- Sarıgöl Kılıç, Z., et al., 2018. In vitro genotoxicity assessment of dinitroaniline herbicides pendimethalin and trifluralin. Food and chemical toxicology, 113, 90–98.
- Saad-Hussein, A., et al., 2017. GSTP1 and XRCC1 polymorphisms and DNA damage in agricultural workers exposed to pesticides. Mutation research, 819, 20–25.
- Singh, N.P., et al., 1988. A simple technique for quantitation of low levels of DNA damage in individual cells. Experimental cell research, 175 (1), 184–191.
- Singh, N.P., 2016. The comet assay: reflections on its development, evolution and applications. Mutation research/Reviews in mutation research, 767, 23–30.
- Sultana Shaik, A., et al., 2016. Evaluation of cytotoxicity and genotoxicity of pesticide mixtures on lymphocytes. Toxicology mechanisms and methods, 26 (8), 588–594.
- Suzuki, K.T., et al., 2002. Roles of metallothionein in copper homeostasis: responses to Cu-deficient diets in mice. Journal of inorganic biochemistry , 88 (2), 173–182.
- Thakur, S., Dhiman, M., and Mantha, A.K., 2018. APE1 modulates cellular responses to organophosphate pesticide-induced oxidative damage in non-small cell lung carcinoma A549 cells. Molecular and cellular biochemistry, 441 (1–2), 201–216.
- Varona-Uribe, M.E., et al., 2016. Exposure to pesticide mixtures and DNA damage among rice field workers. Archives of environmental & occupational health, 71(1), 3–9.
- Vazquez Boucard, C., et al., 2017. A study of DNA damage in buccal cells of consumers of well- and/or tap-water using the comet assay: assessment of occupational exposure to genotoxicants. Environmental and molecular mutagenesis, 58 (8), 619–627.
- Vidi, P.A., et al., 2017. Personal samplers of bioavailable pesticides integrated with a hair follicle assay of DNA damage to assess environmental exposures and their associated risks in children. Mutation research, 822, 27–33.
- Waheed, S., Kamal, A., and Malik, R.N., 2014. Human health risk from organ-specific accumulation of toxic metals and response of antioxidants in edible fish species from Chenab River, Pakistan. Environmental science and pollution research, 21 (6), 4409–4417.
- Waheed, A.A., et al., 2013. Phosphate control in end-stage renal disease: barriers and opportunities. Nephrology dialysis transplantation, 28 (12), 2961–2968.
- Waters, D.J., et al., 2007. Non-invasive prediction of prostatic DNA damage by oxidative stress challenge of peripheral blood lymphocytes. Cancer epidemiology, biomarkers & prevention 16 (9), 1906–1910.
- Wolf, D.C., et al., 2006. Toxicity profiles in rats treated with tumorigenic and nontumorigenic triazoleconazole fungicides: propiconazole, triadimefon, and myclobutanil. Toxicologic pathology, 34 (7), 895–902.
- Zarn, J.A., Brüschweiler, B.J., and Schlatter, J.R., 2003. Azole fungicides affect mammalian steroidogenesis by inhibiting sterol 14 alpha-demethylase and aromatase. Environmental health perspectives, 111 (3), 255–261.
- Zhao, L., et al., 2015. Cholrpyrifos induces the expression of the Epstein–Barr virus lytic cycle activator BZLF-1 via reactive oxygen species. Oxidative medicine and cellular longevity, 2015, 1–8.
- Zeljezic, D., et al., 2017. The effect of insecticides chlorpyrifos, α-cypermethrin and imidacloprid on primary DNA damage, TP 53 and c-Myc structural integrity by comet-FISH assay. Chemosphere, 182, 332–338.
- Zepeda-Arce, R., et al., 2017. Oxidative stress and genetic damage among workers exposed primarily to organophosphate and pyrethroid pesticides. Environmental toxicology, 32 (6), 1754–1764.