Abstract
The six natural silicates known as asbestos may induce fatal lung diseases via inhalation, with a latency period of decades. The five amphibole asbestos species are assumed to be biopersistent in the lungs, and for this reason they are considered much more toxic than serpentine asbestos (chrysotile). Here, we refined the atomic structure of an amosite amphibole asbestos fibre that had remained in a human lung for ∼40 years, in order to verify the stability in vivo. The subject was originally exposed to a blend of chrysotile, amosite and crocidolite, which remained in his parietal pleura for ∼40 years. We found a few relicts of chrysotile fibres that were amorphous and magnesium depleted. Amphibole fibres that were recovered were undamaged and suitable for synchrotron X-ray micro-diffraction experiments. Our crystal structure refinement from a recovered amosite fibre demonstrates that the original atomic distribution in the crystal is intact and, consequently, that the atomic structure of amphibole asbestos fibres remains stable in the lungs for a lifetime; during which time they can cause chronic inflammation and other adverse effects that are responsible for carcinogenesis. The amosite fibres are not iron depleted proving that the iron pool for the formation of the asbestos bodies is biological (haemoglobin/plasma derived) and that it does not come from the asbestos fibres themselves.
Highlights
No one in society is indifferent to the word ‘asbestos’ which refers to a family of six fibrous minerals: the layer silicate chrysotile and the double-chain silicates or amphiboles actinolite asbestos, amosite, anthophyllite asbestos, crocidolite and tremolite asbestos (Case et al, 2011; Ballirano et al, 2017).Chrysotile is a layer silicate with the ideal formula Mg3(OH)4Si2O5, composed of one Si-centred tetrahedral (T) sheet joined to one Mg-centred octahedral (O) sheet with a 1:1 (TO) ratio
The solid fraction obtained from the ashing and dissolution of the lung tissues of the human subject contained both free fibres and fibres coated with asbestos bodies (ABs) (Fig. 1)
Identification of the nature of fibres based upon energy-dispersive X-ray (EDX) microanalysis and selected-area electron diffraction (SAED) patterns (Figs. 1 and 2, respectively) showed that 97 (2)% of the fibres detected in the solid suspension were crocidolite [Mg/Si/Fe: Fig. 1(c)] and amosite [Al/Si/Fe: Fig. 1(b)], and the remaining 3(1)% were silica-rich fibres, i.e. the metastable product from dissolution of chrysotile owing to loss of magnesium by leaching [Fig. 1(a)]
Summary
No one in society is indifferent to the word ‘asbestos’ which refers to a family of six fibrous minerals: the layer silicate chrysotile and the double-chain silicates or amphiboles actinolite asbestos, amosite (cummingtonite–grunerite asbestos), anthophyllite asbestos, crocidolite (riebeckite asbestos) and tremolite asbestos (Case et al, 2011; Ballirano et al, 2017). Amphibole asbestos fibres are biodurable (Bernstein et al, 2013) and are prone to induce chronic inflammation responsible for adverse effects in vivo Based on this model, only the amphibole asbestos species are banned worldwide and 65% of the countries in the world (including China, India and Russia) still mine and allow a ‘safe use’ of chrysotile asbestos (Gualtieri, 2017). Besides the morphological and chemical characterization conveyed by ESD-supported electron microscopy (Gordon, 2019; Gandolfi et al, 2016), X-ray diffraction is considered a reliable tool for the characterization of asbestos fibres This technique has recently been used for the direct analysis of fibres found in tissues of rats subjected to intraperitoneal/ intrapleural injection of Union for International Cancer Control (UICC) chrysotile, UICC crocidolite and erionite–Na (Gualtieri, 2017). Structure of an amosite fibre remained stable for $40 years in the lungs of a subject diagnosed with MM and originally exposed to a mixture of chrysotile, amosite and crocidolite
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