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Amphiboles: Environmental and health concerns. In: F.C. Hawthorne, R. Oberti, G. Della Ventura & A. Mottana (eds.) “Amphiboles: Crystal chemistry, Occurrence, and Health Issues
No full textWe turn our attention to an issue that is often not based on rational science, but about fear – the issue of asbestos. As the geological community is well aware, all asbestos are minerals, and thus naturally formed; yet in the public arena the many people believe asbestos is something manufactured by humans and that one fiber is enough to kill you if inhaled. It is our intent to provide the necessary background for members of the scientific community, be they mineralogists, geologists, medical researchers, regulatory workers, or attorneys. This paper contains an introduction and overview of the health effects associated with the inhalation of amphibole minerals. Also, it discusses some of the current issues and research trends surrounding asbestos exposure, especially in the natural environment
Chrysotile, crocidolite, asbestiform erionite: mineralogical characterization and cytotoxic effects
Full text linkUICC chrysotile, chrysotile from Val Malenco, erionite from Nevada and UICC crocidolite fibers were characterized through Transmission Electron Microscopy (TEM) with annexed Energy Dispersive Spectroscopy (EDS). The TEM study was performed forward on three levels for each single sample.
The first observed aspect was the morphological and dimensional study: typical fibrous morphology was observed for all the analyzed samples. For each sample 100 fibers were investigated: were registered their dimension (length and diameter) and the L/d ratio were calculated in order to understand if the fibers population can entry in particular dimensional categories (e.g. WHO criteria, Stanton’s Hypothesis criteria or EPA dimensional limits).
The second observed aspect was the chemical composition of the fibers. Also the chemistry match well with the expected for this minerals. In particular, both the chrysotile samples show the presence of aluminum and iron as substitute of tetrahedral and octahedral typical cations; the crocidolite bears an adding of calcium and the erionite has magnesium and iron cations normally unexpected in the general formula.
At the latter investigation level, all the fibers showed a high degree of crystallinity in the diffraction patterns study, without evidence of natural amorphization (e.g. weathering).
These characterized mineral fibres were administrated for 6, 12, 24 and 48h in human bronchial and mesothelial cells, at the concentration of 50μg/ml, to evaluate their cytotoxic effects; some biofunctional parameters at time points were evaluated: % number of alive, death and apoptotic cells; % number of cells with low, medium, high ROS content.
These data confirm higher cytotoxic effects exerted by UICC crocidolite and UICC chrysotile, particularly evident since short times of contact (6, 12h).
Our next purpose will be to characterize the same fibers extracted from cells after culture treatments
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