Abstract
Kidney damage in distal and proximal tubular function and in glomerular filtration occurred in 40-60 yr olds residing in El Qued an endemic fluorosis area in southern Algeria compared to normals from Algiers. Functional renal disturbances were proportional to the degree of fluoride (F-) accumulation which increased in relation to the level of F- in drinking water, the F- level in nails and the radiological grade of fluorosis.
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Changes in fluoride levels in the liver, kidney, and brain and in neurotransmitters of mice after subacute administration of fluoride
The effects of fluoride after subacute oral administration of NaF at levels of 0, 1, 5, 25, and 125 ppm F– were evaluated in adult male BALB/c mice. Fluoride levels in the murine liver, kidney, and cerebrum after one month were determined using a highly sensitive flow-injection apparatus with a
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Pharmacokinetic aspects of topical fluorides
Pharmacokinetic studies have revealed quantitative information about the bioavailability, rate of absorption, distribution, and clearance of fluoride following the use of fluoride-containing dentifrices, gels, varnishes, and solutions. It is concluded that following the use of topical fluoride products, variable amounts of fluoride are swallowed and absorbed into the systemic circulation--amounts which may be sufficient to produce acute
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Newburgh-Kingston caries-fluorine study. XIII. Pediatric findings after ten years
The onset of menstruation in girls was selected as an index of the rate of sexual maturation, since the menarche is an event which is usually readily dated. The distribution of ages at the nearest birthday at which menstruation first occurred is shown in Table 5. The average age at
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Conceivable amelioration of NaF-induced toxicity in liver, kidney and brain of chicken by black tea extract: an in vitro study.
Sodium fluoride (NaF) toxicity on enzymatic and non-enzymatic oxidative stress markers of chicken liver, kidney and brain homogenate in in vitro condition where studied in present investigation. We studied alteration in the activity of superoxide dismutase (SOD), catalase (CAT), lipid peroxidation (LPO) and glutathione (GSH) content to study oxidative stress.
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The structural and biochemical changes of kidney tissue on fluorosis in rabbit
In this study, the effects of sodium fluoride given subchronically at the doses of 1, 10 and 40 mg/L for 70 days were investigated. For this purpose, 21 male New Zealand rabbits were used. At the end of the 70th day, the level of blood urea nitrogen (BUN), creatine (CRE)
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Fluoride Gels & Kidney Function
Scientists have found that the application of "Fluoride Gels" at the dental office causes very high spikes in the blood fluoride level. The high spikes in blood fluoride levels are a result of three factors: the high concentration of fluoride in the gel (= 12.3 mg of fluoride in each
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Kidney: A potential target for fluoride toxicity
The kidneys are the organ responsible for clearing fluoride from the body. In the process of doing so, the kidneys are exposed to concentrations of fluoride that exceed, by a factor of 50, the concentration of fluoride in human blood. As such, the kidney have long been considered a potential
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Fluoridation of drinking water and chronic kidney disease: Absence of evidence is not evidence of absence
A fairly substantial body of research indicates that patients with chronic renal insufficiency are at an increased risk of chronic fluoride toxicity. Patients with reduced glomerular filtration rates have a decreased ability to excrete fluoride in the urine. These patients may develop skeletal fluorosis even at 1 ppm fluoride in the drinking water.
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Fluoride & Kidney Stones
It has long been suspected that fluoride may contribute to the formation of kidney stones. This suspicion has recently gained support from a study of an American man with skeletal fluorosis. According to the authors: "A new, important, medical problem (that seemed temporally related to cessation of fluoride exposure and subsequent negative calcium
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Fluoride as a Cause of Kidney Disease in Animals
Because the kidney is exposed to higher concentrations of fluoride than all other soft tissues (with the exception of the pineal gland), there is concern that excess fluoride exposure may contribute to kidney disease - thus initiating a "vicious cycle" where the damaged kidneys increase the accumulation of fluoride, causing in
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