Chemical functionalities at the silica surface determining its reactivity when inhaled. Formation and reactivity of surface radicals.

Reactive radicals at the surface of quartz or other SiO2 polymorphs have been studied by EPR in relation to their possible role in pathogenicity. All the examined dusts bear the characteristic radicals of silica ground in air: Si, SiO., SiO.2 (peroxyradical) and O2.- (superoxide ion), but some also show additional spectral lines belonging to other radical forms. Comparison of standard quartz dusts (DQ-12, Min-u-sil 5) with a natural quartz and with what obtained by grinding a very pure quartz crystal indicates that to a higher purity corresponds a higher radical population. Cristobalite and vitreous silica exhibit similar spectra, with larger proportion by respect to quartz, of partially reduced oxygen forms. The reactivity of the silica surface towards O2 and NaClO aqueous solutions are investigated by examining the modification in the EPR spectra induced by these treatments. A possible mechanism for fibrogenicity is proposed whereby, within the activated macrophage, a catalytic reaction occurs between surface functionalities and macrophage oxygen metabolites. This reaction would trigger the abnormal production of fibroblast stimulating factors, ending up with silicosis.