Abstract
Carbonic anhydrase is a key enzyme for initiating the crystal nucleation, seen as “the central dark line” in the crystal structure in calcified hard tissues such as tooth enamel, dentin and bone. Both estrogen deficiency and fluoride exposure adversely affected the synthesis of this enzyme in the calcifying hard tissues. This led to the notion that fluoride exposure might increase the risk of developing osteoporosis in postmenopausal women. Using ovariectomized rats, which represent an estrogen (Es)-deficient state, as an animal model of postmenopausal women, we examined the causal relationship between fluoride (F) exposure and risk of developing osteoporosis. Two groups of rats, an Es-deficient group and a non-Es-deficient group, were administered free drinking water containing F ions (1.0 mg/L). Two other groups, an Es-deficient group and a control-group, were administered tap water. Soft X-ray radiography demonstrated a significant increase of radiolucent areas in the calvaria of the combined Esdeficient plus F group compared to that in the other experimental groups. Electron microscopy revealed an increase of amorphous minerals in the radiolucent areas. Light microscopy demonstrated that combined effects evidently of Es-deficiency and administration of F caused deterioration of the rat tibia with a coarse pattern of trabecular architecture, suggesting that a decline in bone formation might be the primary cause of osteoporosis. Consequently, F exposure might accelerate osteoporotic changes in postmenopausal women even at a low dose.
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Associations of fluoride intake with children's cortical bone mineral and strength measures at age 11.
OBJECTIVES: There is strong affinity between fluoride and calcium, and mineralized tissues. Investigations of fluoride and bone health during childhood and adolescence show inconsistent results. This analysis assessed associations between period-specific and cumulative fluoride intakes from birth to age 11, and age 11 cortical bone measures obtained using peripheral quantitative
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Denser but Not Stronger? Fluoride-Induced Bone Growth and Increased Risk of Hip Fractures.
Abstract Since the mid-1940s, fluoride has been added to toothpaste and (in some countries) tap water, table salt, or milk to reduce dental cavities.1 Although low-level fluoride supplementation prevents cavities, higher levels cause white mottling of the teeth.2 What is more, some studies suggest fluoride in drinking water may increase the
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A prospective study of bone mineral content and fracture in communities with differential fluoride exposure
In 1983/1984, a study of bone mass and fractures was begun in 827 women aged 20-80 years in three rural Iowa communities selected for the fluoride and calcium content of their community water supplies. The control community's water had a calcium content of 67 mg/liter and a fluoride content of
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Fluoride exposure and CALCA methylation is associated with the bone mineral density of Chinese women.
Highlights Excessive fluoride exposure is positively related to CALCA methylation in women. CALCA methylation in Chinese women is negatively associated with BMD. Long-term excessive fluoride exposure is negatively related to BMD in women. BMD in women with CALCA hypermethylated is more susceptible to fluoride. The statistical associations are age-specific
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Fluoride in Drinking Water, Diet, and Urine in Relation to Bone Mineral Density and Fracture Incidence in Postmenopausal Women.
Background: Although randomized controlled trials (RCTs) have demonstrated that high fluoride increases bone mineral density (BMD) and skeletal fragility, observational studies of low-dose chronic exposure through drinking water (<1.5mg/L, the maximum recommended by the World Health Organization) have been inconclusive. Objective: We assessed associations of fluoride in urine, and intake via
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Mayo Clinic: Fluoridation & Bone Disease in Renal Patients
The available evidence suggests that some patients wtih long-term renal failure are being affected by drinking water with as little as 2 ppm fluoride. The finding of adverse effects in patients drinking water with 2 ppm of fluoride suggests that a few similar cases may be found in patients imbibing 1 ppm, especially if large volumes are consumed, or in heavy tea drinkers. The finding of adverse effects in patients drinking water with 2 ppm of fluoride suggests that a few similar cases may be found in patients imbibing 1 ppm, especially if large volumes are consumed, or in heavy tea drinkers and if fluoride is indeed the cause. It would seem prudent, therefore, to monitor the fluoride intake of patients with renal failure living in high fluoride areas.
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Skeletal Fluorosis: The Misdiagnosis Problem
It is a virtual certainty that there are individuals in the general population unknowingly suffering from some form of skeletal fluorosis as a result of a doctor's failure to consider fluoride as a cause of their symptoms. Proof that this is the case can be found in the following case reports of skeletal fluorosis written by doctors in the U.S. and other western countries. As can be seen, a consistent feature of these reports is that fluorosis patients--even those with crippling skeletal fluorosis--are misdiagnosed for years by multiple teams of doctors who routinely fail to consider fluoride as a possible cause of their disease.
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"Pre-Skeletal" Fluorosis
As demonstrated by the studies below, skeletal fluorosis may produce adverse symptoms, including arthritic pains, clinical osteoarthritis, gastrointestinal disturbances, and bone fragility, before the classic bone change of fluorosis (i.e., osteosclerosis in the spine and pelvis) is detectable by x-ray. Relying on x-rays, therefore, to diagnosis skeletal fluorosis will invariably fail to protect those individuals who are suffering from the pre-skeletal phase of the disease. Moreover, some individuals with clinical skeletal fluorosis will not develop an increase in bone density, let alone osteosclerosis, of the spine. Thus, relying on unusual increases in spinal bone density will under-detect the rate of skeletal fluoride poisoning in a population.
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Fluoridated Water Causes Severe Dental Fluorosis in Children with Diabetes Insipidus
This section on Diabetes includes: • Fluoride & Impaired Glucose Tolerance • Fluoride & Insulin • Fluoride Sensitivity Among Diabetics • Fluoridated Water Causes Severe Dental Fluorosis in Children with Diabetes Insipidus • NRC (2006): Fluoride’s Effect on Glucose Metabolism Excessive exposure to fluoride causes a defect of the tooth enamel known as dental fluorosis. In
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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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