Abstract
Previous studies suggest that sodium fluoride (NaF) can impair performance in some memory tasks, such as open-field habituation and two-way active avoidance. In the present study, we evaluated the effect of NaF intake (100 ppm in drinking water for 30 days) and its short-term (15 days) withdrawal on open-field habituation and brain monoamine level. Adult male rats were allocated to three groups: tap water (NaF 1.54 ppm) for 45 days (control group); 15 days of tap water followed by NaF for 30 days; and NaF for 30 days followed by 15 days of tap water. The results showed that NaF impairs open-field habituation and increases noradrenaline (NA) and serotonin (5-HT) in the striatum, hippocampus and neocortex. Dopamine (DA) increase was restricted to the striatum. Short-term NaF withdrawal did not reverse these NaF-induced changes, and both NaF treatments led to a mild fluorosis in rat incisors. No treatment effect was seen in body weight or fluid/water consumption. These results indicate that sodium fluoride induces memory impairment that outlasts short-term NaF withdrawal (2 weeks) and may be associated with NA and 5-HT increases in discrete brain regions.
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Attenuating effect of Vitamin E on the deficit of learning and memory of rats with chronic fluorosis: the mechanism may involve muscarinic acetylcholine receptors.
The protective role of vitamin E (Vit E) against neurotoxicity induced by fluorosis was investigated by using Sprague-Dawley (SD) rats fed with 50 ppm fluoride in drinking water for 10 months. Spatial learning and memory of rats were measured by the Morris water maze test; the expressions of M1 and
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Influence of chronic fluorosis on expression of phospho-Elk-1 in rat brains.
Objective: To investigate the expression and distribution of the downstream substrate of extracellular regulated protein kinase(ERK1/2) pathway, ternary complex factor phospho-Elk-1, in rat brains with chronic fluorosis, and reveal the mechanism of the impaired learning and memory ability caused by chronic fluorosis. Methods: Seventy-two SD rats, weighing 100 - 120 g,
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ERK1/2-mediated disruption of BDNF–TrkB signaling causes synaptic impairment contributing to fluoride–induced developmental neurotoxicity
Highlights Rats were long–term chronic exposed to environmentally relevant doses of fluoride. Fluoride exposure results in synaptic alterations both in vivo and in vitro. Fluoride–induced cognitive failures correlates with synaptic deficits. BDNF–TrkB axis disruption contributes to fluoride–elicited impaired synaptogenesis. ERK1/2 plays a vital role in fluoride–induced BDNF–TrkB signaling disruption. Excessive
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Pathologic changes and effect on the learning and memory ability in rats exposed to fluoride and aluminum
Background: The aim of this study is to establish a single and combined intoxication model of fluoride and aluminum so as to observe the impact of these chemicals on the learning and memory ability and the pathologic changes in brain of rats. Methods: Forty male Wistar rats were randomly assigned
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Association between fluoride exposure in drinking water and cognitive deficits in children: A pilot study.
Highlights Cognitive ability was assessed in children exposed to a range of fluoride levels in drinking water. The study successfully implemented the CANTAB test to children residing in rural Ethiopia. Water fluoride levels were negatively associated with children's drawing skills, and CANTAB's memory and learning tests. Children exposed to high
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Fluoride & IQ: 76 Studies
Note: See the Updated list of fluoride IQ studies at https://fluoridealert.org/researchers/fluoride-iq-studies/the-fluoride-iq-studies/ • As of July 18, 2022, a total of 85 human studies have investigated the relationship between fluoride and human intelligence. • Of these investigations, 76 studies have reported that elevated fluoride exposure is associated with reduced IQ in humans. • The studies
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Fluoride Affects Learning & Memory in Animals
An association between elevated fluoride exposure and reduced intelligence has now been observed in 65 IQ studies. Although a link between fluoride and intelligence might initially seem surprising or random, it is actually consistent with a large body of animal research. This animal research includes the following 45 studies (out
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Fluoride: Developmental Neurotoxicity.
Developmental Neurotoxicity There has been a tremendous amount of research done on the association of exposure to fluoride with developmental neurotoxicity. There are over 60 studies reporting reduced IQ in children and several on the impaired learning/memory in animals. And there are studies which link fluoride to Attention Deficit Hyperactivity Disorder. Teaching
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Fluoride's Direct Effects on Brain: Animal Studies
The possibility that fluoride ingestion may impair intelligence and other indices of neurological function is supported by a vast body of animal research, including over 40 studies that have investigated fluoride's effects on brain quality in animals. As discussed by the National Research Council, the studies have consistently demonstrated that fluoride, at widely varying concentrations, is toxic to the brain.
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Fluoride's Effect on Fetal Brain
The human placenta does not prevent the passage of fluoride from a pregnant mother's bloodstream to the fetus. As a result, a fetus can be harmed by fluoride ingested pregnancy. Based on research from China, the fetal brain is one of the organs susceptible to fluoride poisoning. As highlighted by the excerpts
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