Effects of chrysotile and acid-treated chrysotile on macrophage cultures

Beck, E. G.; Holt, P. F.; Nasrallah, E. T.

doi:10.1136/oem.28.2.179

Cited by 19 publications

(14 citation statements)

References 7 publications

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“…The surface of CA consists mainly of magnesium ions that are released following acid treatment, leaving a predominantly silicate surface. Increased cytotoxicity of acid-treated chrysotile compared with untreated chrysotile was observed following exposure of guinea pig macrophages to both types of asbestos (Beck et al, 1971). We also observed increased cytotoxicity of acid-treated chrysotile in human PAMs.…”

Section: Discussionsupporting

confidence: 63%

In vitro cytotoxicity of chrysotile asbestos to human pulmonary alveolar macrophages is decreased by organosilane coating and surfactant

et al. 1986

Cell Biol Toxicol

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Human pulmonary alveolar macrophages were used to quantitate the cytotoxic effect of surface-altered chrysotile asbestos. Little difference was observed in mortality between chrysotile asbestos that was surface-treated to a 42% extent by a hydrophobic organosilane or untreated chrysotile. Little or no effect on mortality was observed when human pulmonary alveolar macrophages were cultured with untreated chrysotile or acid-leached asbestos in the presence of 10 mM dipalmitoyl lecithin. However, when human pulmonary alveolar macrophages were cultured with a hydrophobically-treated (to a 42% or 95% extent) chrysotile asbestos in the presence of 10 mM dipalmitoyl lecithin, a statistically significant decrease in mortality was observed compared to untreated chrysotile. No mutagenic activity was observed when V79 cells were cultured with acid-leached, or 42% hydrophobically-treated chrysotile asbestos, even when human pulmonary alveolar macrophages were included as an activation source. The 95% hydrophobically-treated and acid-leached chrysotile also exhibited decreased binding of benzo[a]pyrene compared to untreated chrysotile asbestos.

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Section: Discussionsupporting

confidence: 63%

In vitro cytotoxicity of chrysotile asbestos to human pulmonary alveolar macrophages is decreased by organosilane coating and surfactant

et al. 1986

Cell Biol Toxicol

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“…;6< # by some other inorganic dusts. Beck et al 26 have shown an increase in capillary permeability by chrysotile fibres sufficiently severe to allow red cell diapedesis through the capillary wall into the tissues, and this might explain why the distribution of fibrosis in asbestosis is similar to that seen in other types of chronic inflammatory exudates. The presence of Kerley B lymphatic lines on the chest radiograph of some patients with asbestosis2 7-as well as on those of patients with other chronic exudates-and the striking desquamative These observations pose two questions.…”

Section: Distribution Of Lung Fibrosis With Inorganic Dustsmentioning

confidence: 99%

A perspective view on widespread pulmonary fibrosis.

Turner-Warwick¹

1974

BMJ

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“…Although the cellular effect of silica and asbestos dusts has been extensively studied (Allison et al, 1966;Parazzi et al, 1968;Beck et al, 1971;Harington et al, 1973;Rajan et al, 1972) little research has been conducted on the effect of talc on cells. Schnitzer and Pundsack (1970), using a red cell haemolysis test (Stalder and Stoeber, 1965) Available information on the cellular effect of mineral dusts indicates that platy talc is inactive, unlike the fibrous dusts silica and crocidolite which have significant biological activity.…”

Section: Mineralogymentioning

confidence: 99%

The biology of talc.

Hildick‐Smith¹

1976

Occupational and Environmental Medicine

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-229. The biology of talc. Data are presented on the effects on health of talc dusts from exposure in industry and use of talc-containing health products. The mineralogy of talc and the composition of cosmetic and industrial grade talc dusts are described. Studies in animals are reviewed, and epidemiological data are considered in relation to exposures that occur during industrial and consumer uses of talc dusts. Hamsters exposed to 8 mg/m3 of respirable cosmetic grade talc dust for up to 150 minutes a day for 300 consecutive days showed no difference in incidence or nature of pathological lesions from those observed in a group of untreated animals. A retrospective study of the causes of death of 227 talc mine millers exposed to cosmetic grade talc at the threshold limit value for talc (20 million parts per cubic foot) for an average of 15 8 years showed that the causes of death were no different from those in a control cohort not exposed to talc dust. The available data indicate that talc dust exposure in the modern mining of cosmetic grade talc does not appear to be injurious to health. The significantly lower dust exposure in the normal use of cosmetic grade talc dusts in talc-containing health and cosmetic products confirms that their use is not a hazard to health.Increasing interest in the impact of environmental influences on health has in recent years focused attention on the significance of pollutants and prompted a reappraisal of environmental mineral dusts that have had extensive long-term use, but on which there is a paucity of correlated scientific data by which to

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Effects of chrysotile and acid-treated chrysotile on macrophage cultures

Cited by 19 publications

References 7 publications

In vitro cytotoxicity of chrysotile asbestos to human pulmonary alveolar macrophages is decreased by organosilane coating and surfactant

In vitro cytotoxicity of chrysotile asbestos to human pulmonary alveolar macrophages is decreased by organosilane coating and surfactant

A perspective view on widespread pulmonary fibrosis.

The biology of talc.

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