Abstract
Five-day-old Wistar rats were given three intraperitoneal injections at 2-hourly intervals of a solution of sodium fluoride in 0.9 per cent sodium chloride. Three fluoride levels were used: a mottling dose of 3 mgF/kg body weight; and two sub-mottling doses, 0.05 mg and 0.01 mgF/kg body weight. Thirty minutes after the last injection, each rat received 5 ?Ci/g body weight of [3H]-serine. The design allowed for within-litter comparisons of treatments to be made. Rats were killed 1 hr and 20 hr after the injection of the label, and the tissues were processed for light microscope autoradiography.
After 1 hr, there was a reduced uptake with the mottling dose and an increased uptake with the smaller sub-mottling dose of fluoride. However, there was not a uniformly parallel pattern at 20 hr.
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Combined effect of amoxicillin and sodium fluoride on the structure of developing mouse enamel in vitro
OBJECTIVE: Excess fluoride intake during tooth development is known to cause dental fluorosis. It has also been suggested that amoxicillin use in early childhood is associated with enamel hypomineralization. The aim was to investigate separate and combined effects of sodium fluoride (NaF) and amoxicillin on enamel formation in vitro. DESIGN: Mandibular
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Association between dental fluorosis prevalence and inflammation levels in school-aged children with low-to-moderate fluoride exposure.
Inflammation mediates the neurological deficits caused by fluoride. Thus, whether inflammation is the underlying mechanism of dental fluorosis (DF) in school-aged children is worth exploring. A cross-sectional study was conducted to investigate the association between inflammation and the prevalence and severity of DF with low-to-moderate fluoride exposure. Fasting morning urine
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Stress Response Pathways in Ameloblasts: Implications for Amelogenesis and Dental Fluorosis
Human enamel development of the permanent teeth takes place during childhood and stresses encountered during this period can have lasting effects on the appearance and structural integrity of the enamel. One of the most common examples of this is the development of dental fluorosis after childhood exposure to excess fluoride,
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The effect of fluoride on the immature enamel matrix protein of the rat.
Fluoride in drinking water decreased the total quantity of enamel matrix protein formed in rat incisors and altered the relative proportions of individual amino acids of the matrix.
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Single Nucleotide Polymorphisms and Dental Fluorosis: A Systematic Review.
Genetic factors contribute to susceptibility and resistance to fluoride exposure. The aim of this systematic review was to identify alleles/genotypes of single nucleotide polymorphisms (SNPs) associated with dental fluorosis (DF) and to identify them as protective or risk factors. PubMed, ScienceDirect, Cochrane Library, Scopus and Web of Science were searched
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Dental Fluorosis Is a "Hypo-mineralization" of Enamel
Teeth with fluorosis have an increase in porosity in the subsurface enamel ("hypomineralization"). The increased porosity of enamel found in fluorosis is a result of a fluoride-induced impairment in the clearance of proteins (amelogenins) from the developing teeth. Despite over 50 years of research, the exact mechanism by which fluoride impairs amelogin
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Mechanisms by Which Fluoride Causes Dental Fluorosis Remain Unknown
When it comes to how fluoride impacts human health, no tissue in the body has been studied more than the teeth. Yet, despite over 50 years of research, the mechanism by which fluoride causes dental fluorosis (a hypo-mineralization of the enamel that results in significant staining of the teeth) is not
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Dental Fluorosis Impacts Dentin in Addition to Enamel
Dental fluorosis is a mineralization defect of tooth enamel marked by increased subsurface porosity. The enamel, however, is not the only component of teeth that is effected. As several studies have demonstrated, dental fluorosis can also impair the mineralization of dentin as well. As noted in one review: "The fact that
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Dental Fluorosis in the U.S. 1950-2004
Before the widespread use of fluoride in dentistry, dental fluorosis was rarely found in western countries. Today, with virtually every toothpaste now containing fluoride, and most U.S. water supplies containing fluoride chemicals, dental fluorosis rates have reached unprecedented levels. In the 1950s, it was estimated that only 10% of children in
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"Mild" Dental Fluorosis: Perceptions & Psychological Impact
The vast majority of research has found that patients, parents, and the general public alike view mild fluorosis (TF score 3) as a significant blemish of the teeth, one that is likely to embarrass the affected child to a degree that cosmetic treatment would be warranted.
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