Available studies (370 found)
| Short citation | Full citation | Bioassay | Epidemiology | Epi. meta-analysis | In vitro | Ecology |
|---|---|---|---|---|---|---|
| Wang Y et al. 2015 | Wang Y et al. Elevated tissue Cr levels, increased plasma oxidative markers, and global hypomethylation of blood DNA in male Sprague-Dawley rats exposed to potassium dichromate in drinking water. HERO DOI | |||||
| Westberg H et al., 2013, 1940234 | Westberg H, Andersson L, Bryngelsson IL, Ngo Y, Ohlson CG. Cancer morbidity and quartz exposure in Swedish iron foundries. International Archives of Occupational and Environmental Health 86:499-507. HERO DOI | |||||
| Wu, 2000, 5029869 (genetox) | Wu, FY; Tsai, FJ; Kuo, HW; Tsai, CH; Wu, WY; Wang, RY; Lai, JS. Cytogenetic study of workers exposed to chromium compounds. Mutation Research: Genetic Toxicology and Environmental Mutagenesis. 464(2):289-296. https://heronet.epa.gov/heronet/index.cfm/reference/details/reference_id/5029869 | |||||
| Wu, 2001, 1514550 (genetox) | Wu, FY; Wu, WY; Kuo, HW; Liu, CS; Wang, RY; Lai, JS. Effect of genotoxic exposure to chromium among electroplating workers in Taiwan. | |||||
| Wultsch, 2014, 5029836 (genetox) | Wultsch, G; Nersesyan, A; Kundi, M; Jakse, R; Beham, A; Wagner, KH; Knasmueller, S. The sensitivity of biomarkers for genotoxicity and acute cytotoxicity in nasal and buccal cells of welders. International Journal of Hygiene and Environmental Health. 217(4-5):492-498. https://heronet.epa.gov/heronet/index.cfm/reference/details/reference_id/5029836 | |||||
| Wultsch, 2017, 3842679 (genetox) | Wultsch, G; Nersesyan, A; Kundi, M; Mišík, M; Setayesh, T; Waldherr, M; Vodicka, P; Vodickova, L; Knasmüller, S. Genotoxic and cytotoxic effects in exfoliated buccal and nasal cells of chromium and cobalt exposed electroplaters. Journal of Toxicology and Environmental Health, Part A: Current Issues. 80(13-15):1-10. https://heronet.epa.gov/heronet/index.cfm/reference/details/reference_id/3842679 | |||||
| Xia, 2016, 5371057 | Xia W et al. A case-control study of maternal exposure to chromium and infant low birth weight in China. Chemosphere 144:1484-1489. HERO DOI | |||||
| Xiaohua et al. 2012 1235266 (genetox) | Xiaohua L, Yanshuang S, Li W, Yuhui L, Ji Z, Yanhui M, Yun W, Wenjun M, Lei Y, Guang J. Evaluation of the correlation between genetic damage and occupational chromate exposure through BNMN frequencies. Journal of Occupational and Environmental Medicine 54:166-170. HERO DOI | |||||
| Xu Z et al., 1996, 1012261 | Xu Z, Brown LM, Pan GW, Liu TF, Gao GS, Stone BJ, Cao RM, Guan DX, Sheng JH, Yan ZS, Dosemeci M, Fraumeni JF, Blot WJ. Cancer risks among iron and steel workers in Anshan, China, Part II: Case-control studies of lung and stomach cancer. American Journal of Industrial Medicine 30:7-15. HERO DOI | |||||
| Younan, 2019, 5879770 | Younan S, Sakita GZ, Coluna JGY, Rufino MN, Keller R, Bremer-Neto H. Probiotic mitigates the toxic effects of potassium dichromate in a preclinical study: A randomized controlled trial. Journal of the Science of Food and Agriculture 99:183-190. DOI HERO | |||||
| Yousef et al. 2006 | Yousef MI et al. Ameliorating effect of folic acid on chromium(VI)-induced changes in reproductive performance and seminal plasma biochemistry in male rabbits. Reproductive Toxicology 21:322-328. HERO | |||||
| Yuan TH et al., 2011, 1327419 | Yuan TH, Lian IeB, Tsai KY, Chang TK, Chiang CT, Su CC, Hwang YH. Possible association between nickel and chromium and oral cancer: a case-control study in central Taiwan. Science of the Total Environment 409:1046-1052. HERO DOI | |||||
| Zabulyte D et al. 2006 | Zabulyte D et al. Investigation of combined effect of chromium (VI) and nitrate in experiments on rats. Trace Elements and Electrolytes 23:287-291. HERO | |||||
| Zabulyte D et al. 2009 | Zabulyte D et al. Investigation of combined effect of chromium (VI) and sodium fluoride in experiments on rats. Trace Elements and Electrolytes 26:67-71. HERO | |||||
| Zahid et al. 1990 | Zahid ZR et al. Comparative effects of trivalent and hexavalent chromium on spermatogenesis of the mouse. Toxicological and Environmental Chemistry 25:131-136. HERO | |||||
| Zhang, 2012, 1290293 (genetox) | Zhang, XH; Zhang, X; Zhang, L; Chen, Q; Yang, Z; Yu, J; Fu, H; Zhu, YM. XRCC1 Arg399Gln was associated with repair capacity for DNA damage induced by occupational chromium exposure. BMC Research Notes. 5:263. https://heronet.epa.gov/heronet/index.cfm/reference/details/reference_id/1290293 | |||||
| Zhang and Li 1987 | Zhang JD and Li XL. [Chromium pollution of soil and water in Jinzhou]. Zhonghua Yufang Yixue Zazhi 21:262-264. HERO | |||||
| Zhang Y et al. 2016 | Zhang Y et al. Metals compositions of indoor PM2.5, health risk assessment, and birth outcomes in Lanzhou, China. Environmental Monitoring and Assessment 188:325. HERO | |||||
| Zhang Y et al. 2022 | Zhang Y, Su Z, Hu G, Hong S, Long C, Zhang Q, Zheng P, Wang T, Yu S, Yuan F, Zhu X, Jia G. Lung function assessment and its association with blood chromium in a chromate exposed population. DOI HERO | |||||
| Zheng et al. 2018, 4985159 | Zheng W, Ge F, Wu K, Chen X, Li X, Chen Y, Lv Y, Lian Q, Ge RS. In utero exposure to hexavalent chromium disrupts rat fetal testis development. Toxicology Letters 299:201-209. HERO DOI |
Showing studies 351-370 of 370