Available studies (293 found)
| Short citation | Full citation | Bioassay | Epidemiology | Epi. meta-analysis | In vitro | Ecology |
|---|---|---|---|---|---|---|
| Dong 2015b | Dong Y, Wang Y, Wei N, Guan Z. 2015. [Expression levels of brain muscarinic acetylcholine receptor in offspring rats of drinking-water borne fluorosis]. Chin J Endemiol 34: 326-330. | |||||
| Dong 2015c | Dong YW, Y. Wei, N. Guan, Z. 2015. [Expression of muscarinic acetylcholine receptors in the brain of rats with chronic fluorosis]. Chin J Endemiol 34(2): 84-88. | |||||
| Dong 2017 | Dong YT, Wei N, Qi XL, Liu XH, Chen D, Zeng XX, Guan ZZ. 2017. Attenuating effect of vitamin E on the deficit of learning and memory of rats with chronic fluorosis: The mechanism may involve muscarinic acetylcholine receptors. Fluoride 50: 354-364. | |||||
| Du 1992 [translated in Du 2008] | Du L, Wan C, Cao X, Liu J. 1992. [The effect of fluorine on the developing human brain]. Chin J Pathol 21(4): 218-220. | |||||
| Duan 1995 | Duan J, Zhao M, Wang L, Fang D, Wang Y, Wang W. 1995. A comparative analysis of the results of multiple tests in patients with chronic industrial fluorosis. Guizhou Med J 18(3): 179-180. | |||||
| Ekambaram and Paul 2001 | Ekambaram P, Paul V. 2001. Calcium preventing locomotor behavioral and dental toxicities of fluoride by decreasing serum fluoride level in rats. Environ Toxicol Pharmacol 9: 141-146. PubMed | |||||
| Ekambaram and Paul 2002 | Ekambaram P, Paul V. 2002. Modulation of fluoride toxicity in rats by calcium carbonate and by withdrawal of fluoride exposure. Pharmacol Toxicol 90: 53-58. PubMed | |||||
| Ekambaram and Paul 2003 | Ekambaram P, Paul V. 2003. Effect of vitamin D on chronic behavioral and dental toxicities of sodium fluoride in rats. Fluoride 36: 189-197. | |||||
| El-lethey 2010 | El-lethey HS, Kamel MM, Shaheed IB. 2010. Neurobehavioral toxicity produced by sodium fluoride in drinking water of laboratory rats. J Am Sci 6(5): 54-63. | |||||
| El-lethey and Kamel 2011 | El-lethey HS, Kamel MM. 2011. Effects of black tea in mitigation of sodium fluoride potency to suppress motor activity and coordination in laboratory rats. J Am Sci 7(4): 243-254. | |||||
| El-lethey and Shaheed 2011 | El-lethey HS, Shaheed IB. 2011. Potential health impact of black tea against Na-F-induced alterations in territorial aggression, sexual behaviour and fertility of male rats. Life Sci J 8: 828-839. | |||||
| Elliott 1967 | Elliott L. 1967. Lack of effect of administration of fluoride on the central nervous system of rats. Acta Pharmacol Toxicol (Copenh) 25: 323-328. PubMed | |||||
| Erickson 1980 | Erickson JD. 1980. Down syndrome, water fluoridation, and maternal age. Teratology 21: 177-180. | |||||
| Erickson and Hay 1976 | Erickson JD, Hay S. 1976. Water fluoridation and congenital malformations: No association. J Am Dent Assoc 93: 981-984. | |||||
| Eswar 2011 | Eswar P, Nagesh L, Devaraj CG. 2011. Intelligent quotients of 12-14 year old school children in a high and low fluoride village in India. Fluoride 44: 168-172. | |||||
| Fan 2007 | Fan Z, Dai H, Bai A, Li P, Li T, Li G. 2007. The effect of high fluoride exposure in children’s intelligence. J Environ Health 24(10): 802-803. | |||||
| Farmus 2021 | Farmus L, Till C, Green R, Hornung R, Martinez Mier EA, Ayotte P, Muckle G, Lanphear BP, Flora DB. 2021. Critical windows of fluoride neurotoxicity in Canadian children. Environ Res 200:111315. PubMed DOI | |||||
| Feng 2022 | Feng Z, An N, Yu F, Ma J, Li N, Du Y, Guo M, Xu K, Hou X, Li Z, Zhou G, Ba Y. 2022. Do methylenetetrahydrofolate dehydrogenase, cyclohydrolase, and formyltetrahydrofolate synthetase 1 polymorphisms modify changes in intelligence of school-age children in areas of endemic fluorosis? Chin Med J 135(15):1846-1854. PubMed DOI | |||||
| Flace 2010 | Flace P, Benagiano V, Vermesan D, Sabatini R, Inchingolo AM, Auteri P, Ambrosi G, Tarullo A, Cagiano R. 2010. Effects of developmental fluoride exposure on rat ultrasonic vocalization, acoustic startle reflex and pre-pulse inhibition. Eur Rev Med Pharmacol Sci 14: 507-512. PubMed | |||||
| Gabovich 1962 | Gabovich RD. 1962. [On the problem of the effect of fluorine in drinking water on the functional state of the central nervous system]. Gig Sanit 27: 10-12. | |||||
| Gao 2008a | Gao Q, Liu YJ, Wu CX, Long YG, Guan ZZ. 2008. [Effects of fluoride on learning and memory and cholinesterase activity in rat brains]. Chin J Endemiol 27: 128-130. | |||||
| Gao 2008b | Gao Q, Liu YJ, Wu CX, Long YG, Guan ZZ. 2008. [Level of oxidative stress in rat brains and learning and memory function of rats with chronic fluorosis]. Chin J Endemiol 27: 371-373. | |||||
| Gao 2009 | Gao Q, Liu YJ, Guan ZZ. 2009. Decreased learning and memory ability in rats with fluorosis: Increased oxidative stress and reduced cholinesterase activity in the brain. Fluoride 42: 277-285. | |||||
| Gao 2009b | Gao Y, Liu L, Young L, Huan L, Jin H. 2009. Effects of learning and memory of fluoride and the antagonism of selenium in rats. Studies of Trace Elements and Health 26(2): 1-3. | |||||
| Ge 2018a | Ge QD, Tan Y, Luo Y, Wang WJ, Zhang H, Xie C. 2018. MiR-132, miR-204 and BDNF-TrkB signaling pathway may be involved in spatial learning and memory impairment of the offspring rats caused by fluorine and aluminum exposure during the embryonic stage and into adulthood. Environ Toxicol Pharmacol 63: 60-68. PubMed DOI |
Showing studies 51-75 of 293