Abstract
Drosophila males were fumigated with gaseous hydrogen fluoride in two series of experiments. In Series I, wild type Oregon-R males were treated by continuous flow of HF for 10 hours. In Series II, dp+/+b males were treated at a steady state level of HF for 9 hours. Treated and control males were crossed individually to virgin females of the genotype Pm dp b/Cy. The genetic analyses of the test generations of both series showed that homozygosity for one of the second chromosomes from a treated male resulted in a reduction in viability of the individuals which ranged from subvital to complete lethality. The viability of the controls and the heterozygous sibs was normal. These individuals of abnormal phenotypes were observed in the segregating generations. None of the crosses conducted to determine the mode of inheritance of these abnormal flies were successful. These limited studies indicate that HF may act as a mutagenic agent.
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Amelioration by melatonin of chromosomal anomalies induced by arsenic and/or fluoride in human blood lymphocyte cultures
Standard cytochemical methods were used to investigate the ameliorative effect of melatonin (0.2 mM) on chromosomal aberrations in human lymphocyte cultures induced by arsenic (As2O3, 1.4 ?M) and/or fluoride (NaF, 34 ?M). As2O3 and/or NaF generated a significant increase in the incidence of chromosomal aberrations as compared to control levels.
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The effects of sodium fluoride and iodacetamide on mutation induction by x-irradiation in mature spermatoza of drosophila
The effect of two inhibitors of glycolysis, NaF and iodacetamide on the production of recessive lethal mutations by X-rays in mature Drosophila sperm has been investigated. Pre-treatment with NaF resulted in a consistent and highly significant increase of the mutation frequency. This effect is thought to result from interference with
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Chromosomal changes in maize induced by hydrogen fluoride gas
Maize seedlings of the genotype A1A2C1Wx were fumigated in growth chambers with hydrogen fluoride (HF) at a concentration of about 3 ug/m3. The experiment was run for 10 days, with the first group of treated plants removed from the chambers after 4 days and then at intervals of 2 days.
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Extrapolation from in vitro tests to human risk: experience with sodium fluoride clastogenicity
Genotoxic effects observed in vitro, only at high doses or high levels of cytotoxicity, will be false positives if such conditions are not achieved or cannot be tolerated in vivo. However, for such effects to be disregarded there must be a threshold dose or level of cytotoxicity below which genotoxicity
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Sister chromatid exchanges: a study in fluorotic individuals of North Gujurat
The purpose of this preliminary investigation was to compare the genotoxic effect of fluoride in human individuals directly exposed to high concentrations of drinking water fluoride (1.95 to 2.2 ppm) with those in individuals exposed to concentrations (0.6 to 1.0 ppm) within the WHO permissible limit. Sister chromatid exchanges (SCE)
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Fluoride/Osteosarcoma Link Is Biologically Plausible
The "biological plausiblility" of a fluoride-osteosarcoma link is widely acknowledged in the scientific literature. The biological plausibility centers around three facts: 1) Bone is the principal site of fluoride accumulation, particularly during the growth spurts of childhood; 2) Fluoride is a mutagen when present at sufficient concentrations, and 3) Fluoride can stimulate the proliferation of osteoblasts (bone-forming cells).
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A Critique of Gelberg's Study on Fluoride/Osteosarcoma in New York
The case-control study by Gelberg, published first as a PhD dissertation and then later in two peer-reviewed journals, may represent the most substantive study on fluoride/osteosarcoma previous to Bassin’s 2001 analysis. In assessing Gelberg’s data, we were at first struck by the existence of several notable errors in both the thesis and papers. While these errors do raise questions about the study, our primary concern with Gelberg’s work relates to the methods she used to analyze her data.
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Fluoride's Mutagenicity: In vitro Studies
According to the National Toxicology Program, "the preponderance of evidence" from laboratory "in vitro" studies indicate that fluoride is a mutagenic compound. Many substances which are mutagens, are also carcinogens (i.e. they can cause cancer). As is typical for in vitro studies, the concentrations of fluoride that have generally been tested
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Fluoride's Mutagenicity: In vivo Studies
Consistent with dozens of in vitro studies, a number of in vivo studies, in both humans and animals, have found evidence of fluoride-induced genetic damage. In particular, research on humans exposed to high levels of fluoride have found increased levels of "sister chromatid exchange" (SCE). As noted in one study: "In
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Fluoride's Mutagenicity: The "Oral Health Research Institute's" Studies
Although many in vitro and in vivo studies have detected mutagenic effects from fluoride exposure, the Oral Health Research Institute at Indiana University's School of Dentistry has repeatedly failed to find any such effect in multiple studies on the subject.
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