Abstract
The strength of osteopenic bone from calcium deprived rats, quail and roosters was significantly reduced after fluoride supplementation. Using a device which measures torque, femurs from rats fed low calcium diets with 100 parts per million fluoride added to the water supply fractured at lower torque values than those values observed for rats fed a low calcium diet without fluoride. Fluoride administration and calcium restriction in adult roosters and young Japanese quail also resulted in a reduction in bone strength. This detrimental effect on bone strength must be considered in any therapeutic attempt to use fluoride ion to stimulate bone formation in osteopenic bone disorders.
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Effects of estrogen on bone composition in rats at low and high fluoride intake
Bone examinations were carried out on female rats which had received estradiol benzoate and drinking water containing either 0.55 or 50 ppm of fluoride (F). The estradiol benzoate was injected subcutaneously twice weekly and the rats were killed after 2, 4 and 6 weeks. The results showed that estrogen treatment
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Effect of fluoride on bone formation and strength in Japanese quail
The effect of fluoride on bone metabolism was studied using Japanese quail fed diets containing 1.2% calcium, 1.2% calcium + 0.075% fluoride, 0.4% calcium, and 0.4% calcium + 0.075% fluoride. In the first experiments, quail were fed the diets immediately after hatching. Low calcium intake (0.4%) resulted in a 23%
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High fluoride and low calcium levels in drinking water is associated with low bone mass, reduced bone quality and fragility fractures in sheep
Chronic environmental fluoride exposure under calcium stress causes fragility fractures due to osteoporosis and bone quality deterioration, at least in sheep. Proof of skeletal fluorosis, presenting without increased bone density, calls for a review of fracture incidence in areas with fluoridated groundwater, including an analysis of patients with low bone
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The effects of sodium fluoride on bone breaking strength
The therapeutic use of sodium fluoride has been recommended in a variety of osteopenic bone diseases. The recommendations are based mainly on the known osteosclerotic effects of sodium fluoride and little information is available as to its effect on bone strength. The influence of various concentrations of sodium fluoride on
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Fluoride and nutritional osteoporosis: Physicochemical data on bones from an experimental study in dogs
Osteoporosis was induced by feeding a low calcium-high phosphorus diet for 41 weeks to adult beagles. The effect of fluoride to modify this condition was examined by adding increasing levels to the purified diet; daily intake of fluoride was about 0, 25, 85, 300 and 1,000 /ug/kg body weight. Radiographic
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Nutrient Deficiencies Enhance Fluoride Toxicity
It has been known since the 1930s that poor nutrition enhances the toxicity of fluoride. As discussed below, nutrient deficiencies have been specifically linked to increased susceptibility to fluoride-induced tooth damage (dental fluorosis), bone damage (osteomalacia), neurotoxicity (reduced intelligence), and mutagenicity. The nutrients of primary importance appear to be calcium,
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Fluoride Exposure Increases Metabolic Requirement for Magnesium
Fluoride's toxicity is significantly enhanced in the presence of nutritional deficiencies. Similarly, fluoride exposure increases the body's requirement for certain nutrients. An individual with a high intake of fluoride, for example, will need a proportional increase in calcium to avoid the mineralization defects (e.g., osteomalacia) that fluoride causes to bone
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Kidney Patients Are at Increased Risk of Fluoride Poisoning
It is well established that individuals with kidney disease are susceptible to suffering bone damage and other ill effects from low levels of fluoride exposure. Kidney patients are at elevated risk because when kidneys are damaged they are unable to efficiently excrete fluoride from the body. As a result, kidney patients
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Fluoridation, Dialysis & Osteomalacia
In the 1960s and 1970s, doctors discovered that patients receiving kidney dialysis were accumulating very high levels of fluoride in their bones and blood, and that this exposure was associated with severe forms of osteomalacia, a bone-softening disease that leads to weak bones and often excruciating bone pain. Based on
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Factors which increase the risk for skeletal fluorosis
The risk for developing skeletal fluorosis, and the course the disease will take, is not solely dependent on the dose of fluoride ingested. Indeed, people exposed to similar doses of fluoride may experience markedly different effects. While the wide range in individual response to fluoride is not yet fully understood, the following are some of the factors that are believed to play a role.
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