Abstract
Fluorotic lesions were studied in cows and calves on farms belonging to 2 agricultural companies. From company HP 3 calves, 4 heifers and 2 cows were examined and from the other (B), 12 bull-calves. The material consisted of a carcass from 1 dead calf and skull, metacarpus and kidneys from slaughtered animals. The F content of feed and water samples was determined. In HP material extensive enamel defects and strong wear were found in the deciduous incisors. Fluorotic lesions in calves were not described previously. One calf had osteoporosis. In the rest of the material osteosclerosis and subperiosteal bone apposition and tubular atrophy in the kidneys were seen. Kidney lesions were not observed previously in bovine fluorosis. Dark furrows and enamel defects appeared in the teeth of the heifers and the cows. In the skeleton osteosclerosis and subperiosteal bone apposition were found. Microscopically the skeleton showed signs of repair. The F content of the skeleton varied between 135 and 300 ppm in the ash. In water samples 1.5-4.0 ppm of F were found. The mineral supply used contained 300-500 ppm of F. The fluorosis in these animals was caused by a combination of the F of the water and the mineral supplement. Considering the microscopic picture and the low skeletal F level, the lesions in the bull-calves of company B were interpreted as fluorosis in a process of repair. The ingested fluorine in these animals was reduced during the fattening period.
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Vitamin D deficiency, rickets, and fluorosis in India
Data on the vitamin D status of the populations in a tropical country like India have seldom been documented. Vitamin D deficiency is presumed to be rare. Population studied by the author and others in the country has proved otherwise. Studies were carried out to document the dietary habits, serum
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Exposure to fluoride in smelter workers in a primary aluminum industry in India
BACKGROUND: Fluoride is used increasingly in a variety of industries in India. Emission of fluoride dust and fumes from the smelters of primary aluminum producing industries is dissipated in the work environment and poses occupational health hazards. OBJECTIVE: To study the prevalence of health complaints and its association with fluoride level
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Skeletal fluorosis in relation to drinking water, nutritional status and living habits in rural areas of Maharashtra, India
The present study was carried out during May 2010 to December 2011 in three villages which were randomly selected from Warora tehsil of Chandrapur district which is one of the endemic district of Maharashtra. . . . All the presently available ground water samples were collected and the mean fluoride concentration
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Fluoride's effects on the formation of teeth and bones, and the influence of genetics.
Fluorides are present in the environment. Excessive systemic exposure to fluorides can lead to disturbances of bone homeostasis (skeletal fluorosis) and enamel development (dental/enamel fluorosis). The severity of dental fluorosis is also dependent upon fluoride dose and the timing and duration of fluoride exposure. Fluoride's actions on bone cells predominate
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Endemic genu valgum and other bone deformities in two villages of Mandla district in central India
An epidemiological investigation was undertaken in the villages of Tilaipani and Hirapur located in Mandla District of Central India to determine the cause and extent of a peculiar skeletal deformity characterised by knock knee (genu valgum) occurring mainly among children. In Tilaipani, 74.4% of children and adolescents below age 20
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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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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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"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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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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