Abstract
The influence of occupational work exposure and host factors on the incidence of dyspnea and wheezing as reported in questionnaires was examined in 1,301 new employees in aluminum electrolytic potrooms. The incidence appeared to decrease after 2 yr of exposure, and the estimated probability of development of symptoms was nearly 20% after 4 yr. A total of 105 subjects developed dyspnea and wheezing. Of 78 symptomatic subjects who were interviewed, 76% experienced improvement or absence of symptoms when off work. In 523 subjects who were assigned to specific levels of exposure at the end of follow-up, a dose-response gradient was found between the development of symptoms and fluoride exposure. Increased risk with increasing amounts of tobacco was also observed, but childhood allergy and a family history of asthma were not significantly related to the outcome variable. We conclude that both total fluoride exposure and smoking are related to asthmatic symptoms in potroom workers, and the suggestion of a dose-response gradient was found for both variables. However, a causal relationship between fluorides and symptoms should be investigated further by specific bronchial provocation testing and by research for specific antibodies and other immunologic markers.
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Inflammatory markers in bronchoalveolar lavage fluid from human volunteers 2 hours after hydrogen fluoride exposure
Fluoride has been in focus as a possible causal agent for respiratory symptoms amongst aluminium potroom workers for several decades. Previously, using bronchoalveolar lavage (BAL), we demonstrated airway inflammation in healthy volunteers 24 hours after exposure to hydrogen fluoride (HF). The objective of the present study was to examine early
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Increased CD3 positive cells in bronchoalveolar lavage fluid after hydrogen fluoride inhalation
OBJECTIVES: This study examined whether experimental hydrogen fluoride exposure for 1 hour induces an inflammatory response in the lower respiratory tract that is detectable in bronchoalveolar lavage fluid. METHODS: Nineteen healthy, nonsmoking men were exposed for 1 hour to constant low (<0.6 mg/m3), intermediate (0.7-2.4 mg/m3), or high (2.5-5.2 mg/m3) concentrations
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Bronchial responsiveness, eosinophilia, and short term exposure to air pollution
The number of capillary blood eosinophils and the prevalence of bronchial hyperresponsiveness (BHR) were compared between schoolchildren living in a polluted area (Ardal) and unpolluted area (Laerdal). In Ardal there is an aluminium smelter emitting sulphur dioxide and fluoride to the environment. Daily measurements of these pollutants in ambient air
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Inflammatory responses of rat alveolar macrophages following exposure to fluoride
Inhalation exposure to fluoride compounds has been associated with respiratory failure. We have addressed effects of fluoride on alveolar macrophages and lung responses to intratracheally (i.t.) instilled fluoride in rats. I.t. instillation of fluoride at doses of 200 and 400 microg F/rat caused significant polymorphonuclear leukocyte (PMN) infiltration in the
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Allergen sensitization and exposure to irritants in infancy
We investigated the relationship between residence in the neighbourhood of an aluminium smelter and the prevalence of atopy in schoolchildren (7-13 years of age). Atopy was assessed in 556 of the 620 participants by a skin prick test with eight common aeroallergens. The median exposures to sulphur dioxide and fluoride
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Respiratory Risks from Occupational Fluoride Exposure
Starting in the 1930s, scientists have observed that workers exposed to airborne fluorides suffer from an elevated rate of respiratory disorders. For over 50 years, however, US government and industry scientists made repeated assurances that the allowable level of fluoride dusts and gases in industrial workplaces would not cause any
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Fluoride Enhances Toxicity of Beryllium
Occupational exposure to beryllium is well-documented to put workers' health at risk. The two principal targets of beryllium poisoning are the respiratory system and the skin. Of all beryllium compounds, beryllium fluoride complexes (including beryllium fluoride and beryllium oxyfluoride) appear to be the most toxic. As shown below, studies dating back
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Does Fluoride Ingestion Affect Developing Immune System Cells?
Considerations, supported by some published experimental evidence, suggest that fluoride released during the resorption of high-fluoride bone may produce detrimental effects not only on bone cells but on developing cells of the immune system.
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Is the Ingestion of Fluoride an Immunosuppressive Practice?
This paper records several observations which suggest that habitual ingestion of small doses of fluoride, even as small as the 1 mg/L contained in fluoridated water, may decrease the function of the immune system.
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Fluoride & the Immune System - Summation from the US National Research Council (2006)
“There is no question that fluoride can affect the cells involved in providing immune responses. The question is what proportion, if any, of the population consuming drinking water containing fluoride at 4.0 mg/L on a regular basis will have their immune systems compromised? Not a single epidemiologic study has investigated whether fluoride in the drinking water at 4 mg/L is associated with changes in immune function. Nor has any study examined whether a person with an immunodeficiency disease can tolerate fluoride ingestion from drinking water.”
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