Available studies (293 found)
| Short citation | Full citation | Bioassay | Epidemiology | Epi. meta-analysis | In vitro | Ecology |
|---|---|---|---|---|---|---|
| Trivedi 2012 | Trivedi M, Sangai N, Patel R, Payak M, Vyas S. 2012. Assessment of groundwater quality with special reference to fluoride and its impact on IQ of schoolchildren in six villages of the Mundra Region, Kachchh, Gujurat, India. Fluoride 45(4): 377-383. | |||||
| Trivedi 2012b | Trivedi MH, Verma RJ, Sangai NP, Chinoy NJ. 2012. Mitigation by black tea extract of sodium fluoride induced histopathological changes in brain of mice. Fluoride 45:13-26. | |||||
| Tsunoda 2005 | Tsunoda M, Aizawa Y, Nakano K, Liu Y, Horiuchi T, Itai K, Tsunoda H. 2005. Changes in fluoride levels in the liver, kidney, and brain and in neurotransmitters of mice after subacute administration of fluoride. Fluoride 38: 284-292. | |||||
| Valdez Jimenez 2017 | Valdez Jimenez L, Lopez Guzman OD, Cervantes Flores M, Costilla-Salazar R, Calderon Hernandez J, Alcaraz Contreras Y, Rocha-Amador DO. 2017. In utero exposure to fluoride and cognitive development delay in infants. Neurotox 59: 65-70. DOI | |||||
| Varner 1998 | Varner JA, Jensen KF, Horvath W, Isaacson RL. 1998. Chronic administration of aluminum-fluoride or sodium-fluoride to rats in drinking water: Alterations in neuronal and cerebrovascular integrity. Brain Res 784(1-2): 284-298. | |||||
| Verma 2007 | Verma RJ, Trivedi MH, Chinoy NJ. 2007. Black tea amelioration of sodium fluoride-induced alterations of DNA, RNA, and protein contents in the cerebral hemisphere, cerebellum, and medulla oblongata regions of mouse brain. Fluoride 40: 7-12. | |||||
| Wang 1996 [translated in Wang 2008b] | Wang G, Yang D, Jia F, Wang H. 1996. [A study of the IQ levels of four- to seven-year-old children in high fluoride areas]. Endem Dis Bull 11(1): 60-62. | |||||
| Wang 2001 | Wang X, Wang L, Hu P, Guo X, Luo X. 2001. [Effects of high iodine and high fluorine on children’s intelligence and thyroid function]. Chin J Endemiol 20(4): 288-290. | |||||
| Wang 2004a | Wang JD, Ge YM, Ning HM, Wang SL. 2004. Effects of high fluoride and low iodine on biochemical indexes of the brain and learning-memory of offspring rats. Fluoride 37: 201-208. | |||||
| Wang 2005 | Wang SX, Wang ZH, Cheng XT, Li J, Sang ZP, Zhang XD, Han LL, Qiao XY, Wu ZM, Wang ZQ. 2005. [Investigation and evaluation on intelligence and growth of children in endemic fluorosis and arsenism areas]. Chin J Endemiol 24: 179-182. | |||||
| Wang 2005b [translated in Wang 2008a] | Wang SY, Zhang HX, Fan W, Fang SJ, Kang PP, Chen XG, Yu MJ. 2005. [The effects of endemic fluoride poisoning caused by coal burning on the physical development and intelligence of children]. J Appl Clin Ped 20(9): 897-899. | |||||
| Wang 2006 | Wang Z, Wang S, Zhang X, Li J, Zheng X, Hu C. 2006. Investigation of children’s growth and development under long-term fluoride exposure. Chin J Control Endem Dis 21(4): 239-241. | |||||
| Wang 2006b | Wang G, Li J, Zhu H, Zhu J. 2006. [Effect of different doses of chronic exposure of fluoride on rat learning and memory behavior]. Studies of Trace Elements and Health 23(2): 1-2. | |||||
| Wang 2007 | Wang SX, Wang ZH, Cheng XT, Li J, Sang ZP, Zhang XD, Han LL, Qiao XY, Wu ZM, Wang ZQ. 2007. Arsenic and fluoride exposure in drinking water: Children's IQ and growth in Shanyin County, Shanxi Province, China. Environ Health Perspect 115: 643-647. DOI | |||||
| Wang 2012 | Wang, QJ, Gao, MX, Zhang, MF, Yang, ML, Xiang, QY. 2012. Study on the correlation between daily total fluoride intake and children's intelligence quotient. J Southeast Univ (Med Sci Edi) 31(6): 743-746 | |||||
| Wang 2012b | Wang S, Zhu X. 2012. [Investigation and analysis of intelligence level of children in high fluoride area]. Chin J Control Endem Dis 27(1): 67-68. | |||||
| Wang 2017 | Wang G, Zhang M, Wang Q, Han A, Gao M, Lin P, Xiang Q. 2017. [Investigation on the relationship between serum fluoride content and IQ of children before and after reducing fluoride to water]. Capital Public Health 11(6): 274-277. | |||||
| Wang 2018 | Wang J, Zhang Y, Guo Z, Li R, Xue X, Sun Z, Niu R. 2018. Effects of perinatal fluoride exposure on the expressions of miR-124 and miR-132 in hippocampus of mouse pups. Chemosphere 197: 117-122. PubMed DOI | |||||
| Wang 2020a | Wang A, Duan L, Huang H, Ma J, Zhang Y, Ma Q, Guo Y, Li Z, Cheng X, Zhu J, Zhou G, Ba Y. Association between fluoride exposure and behavioural outcomes of school-age children: a pilot study in China. Int J Environ Health Res 2020; ():1-10. PubMed DOI | |||||
| Wang 2020b | Wang M, Liu L, Li H, Li Y, Liu H, Hou C, Zeng Q, Li P, Zhao Q, Dong L, Zhou G, Yu X, Liu L, Guan Q, Zhang S, Wang A Thyroid function, intelligence, and low-moderate fluoride exposure among Chinese school-age children. Environ Int 2020; 134 ():105229. PubMed DOI | |||||
| Wang 2020c | Wang J, Yu M, Yang L, Yang X, Deng B. 2020. [The effect of coal-burning fluoride exposure on children's intelligence and physical development]. J Environ Health 37(11):971-974. | |||||
| Wang 2021 | Wang R, He N, Wang Y, Hou G, Zhang P, Jin W. 2021. [Investigation and Analysis of Children's Dental Fluorosis and IQ Level in High Fluoride Areas of Hengshui City]. Chin J Pest Control 37(8):796-800. | |||||
| Wang 2021c | Wang S, Zhao Q, Li G, Wang M, Liu H, Yu X, Chen J, Li P, Dong L, Zhou G, Cui Y, Wang M, Liu L, Wang A. The cholinergic system, intelligence, and dental fluorosis in school-aged children with low-to-moderate fluoride exposure. Ecotoxicol Environ Saf 228:112959. PubMed DOI | |||||
| Wei 2014 | Wei N, Li Y, Deng J, Xu S, Guan Z. 2014. [The effects of comprehensive control measures on intelligence of school-age children in coal-burning-borne endemic fluorosis areas]. Chin J Endemiol 33(3): 320-322. | |||||
| Wei 2014b | Wei N, Dong Y, Wang Y, Guan Z. 2014. [Effects of chronic fluorosis on neurobehavioral development in offspring of rats and antagonistic effect of vitamin E]. Chin J Endemiol 33: 125-128. |
Showing studies 226-250 of 293