Surface and Bulk Infrared Modes of Crystalline and Amorphous Silica Particles: A Study of the Relation of Surface Structure to Cytotoxicity of Respirable Silica

Pandurangi, Raghoottama S.; Seehra, M. S.; Razzaboni, Bronwyn L.; Bolsaitis, P.

doi:10.2307/3430972

Cited by 26 publications

(29 citation statements)

References 26 publications

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“…The various crystalline silica polymorphs exhibit remarkable differences in their pathogenic potential related to differences in crystal structure (1,3,8,(19)(20)(21). Even specimens of the same silica polymorph, e.g., cristobalite dusts of different origin (22,23) (22,33). Correspondingly, the membranolysis potential decreases (33,34).…”

Section: Physicochemical Factors Influencing Surface Reactivitymentioning

confidence: 99%

“…Even specimens of the same silica polymorph, e.g., cristobalite dusts of different origin (22,23) (22,33). Correspondingly, the membranolysis potential decreases (33,34). The reversible adsorption of water, reported in Figure 1 for cristobalite heated at different temperatures, measures the extent of silanols patches, i.e., the extent of hydrophilic sites (18).…”

Section: Physicochemical Factors Influencing Surface Reactivitymentioning

confidence: 99%

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Surface reactivity in the pathogenic response to particulates.

Fubini

1997

Environ Health Perspect

121

100

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The peculiar characteristics of dust toxicity are discussed in relation to the processes taking place at the particle-biological medium interface. Because of surface reactivity, toxicity of solids is not merely predictable from chemical composition and molecular structure, as with water soluble compounds. With particles having the same bulk composition, micromorphology (the thermal and mechanical history of dust and adsorption from the environment) determines the kind and abundance of active surface sites, thus modulating reactivity toward cells and tissues. The quantitative evaluation of doses is discussed in comparisons of dose-response relationships obtained with different materials. Responses related to the surface of the particle are better compared on a per-unit surface than per-unit weight basis. The role of micromorphology, hydrophilicity, and reactive surface cations in determining the pathogenicity of inhaled particles is described with reference to silica and asbestos toxicity. Heating crystalline silica decreases hydrophilicity, with consequent modifications in membranolytic potential, retention, and transport. Transition metal ions exposed at the surface generate free radicals in aqueous suspensions. Continuous redox cycling of iron, with consequent activation-reactivation of the surface sites releasing free radicals, could account for the long-term pathogenicity caused by the inhalation of iron-containing fibers. In various pathogenicities caused by mixed dusts, the contact between components modifies toxicity. Hard metal lung disease is caused by exposure to mixtures of metals and carbides, typically cobalt (Co) and tungsten carbide (WC), but not to single components. Toxicity stems from reactive oxygen species generation in a mechanism involving both Co metal and WC in mutual contact. A relationship between the extent of water adsorption and biopersistence is proposed for vitreous fibers. Modifications of the surface taking place in vivo are described for ferruginous bodies and for the progressive comminution of chrysotile asbestos fibers. Environ Health Perspect 1 05(Suppl 5): 1013-1020 (1997)

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Section: Physicochemical Factors Influencing Surface Reactivitymentioning

confidence: 99%

Section: Physicochemical Factors Influencing Surface Reactivitymentioning

confidence: 99%

Surface reactivity in the pathogenic response to particulates.

Fubini

1997

Environ Health Perspect

121

100

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“…Similarly, another critical analysis that considered all physicochemical characteristics like particle size, specific surface areas, experimental uncertainties 32) indicated a slight difference between the cytotoxicity of the three most common crystalline forms of silica (quartz, cristobalite and tridymite) when compared on the basis of equal number of particle number and surface area. The toxicity of crystalline silica can be markedly reduced by surface-modifications using a coating on the particle surface 7) .…”

Section: Methods To Characterize Silica Surfacesmentioning

confidence: 99%

Crystalline Silica Particles Mediated Lung Injury

Dutta

Moudgil

2007

KONA

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Epidemiological studies have shown that the occupational exposure of crystalline silica can lead to silicosis and other lung injury. In this paper, we briefly summarize the various research works that have been conducted related to crystalline silica-induced toxicity. Firstly, a short description of the structure of quartz is presented, followed by the various types of silicosis that can be caused by inhalation of crystalline silica particles. Methods to characterize the particles and mechanisms of particle-cell interactions are also reported. The effect of physicochemical properties such as size, shape and surface functionality that influence the toxicity mechanisms are discussed, followed by a brief description on the effects of free radical generation due to quartz inhalation on biological targets (proteins, lipids and DNA). Finally, methods reported to modify the surface and reduce the quartz-induced toxicity are discussed.

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“…We collected data with a VG HB5 field emission scanning transmission electron microscope (STEM), operated at 100 keV, with a probe size of 20 A. We conducted X-ray analysis using an energy dis-AM dCI am -, .. 9 & a M persive X-ray analyzer through the characteristic excitation of X-rays caused by energy losses from the inelastic collisions of electrons with atoms. Elements of atomic number 5 (boron) and greater can be detected by this approach.…”

Section: Methodsmentioning

confidence: 99%

“…Furthermore, in vitro studies of the membranolytic activity and cytotoxicity of mineral dust particles have shown no unique relationship with the bulk concentration of quartz in such dusts (3)(4)(5). On the other hand, many in vitro and in vivo studies of the effect on cytotoxicity of the surface characteristics of mineral particles have shown positive correlations with different related variables (6)(7)(8)(9). Also, Rehn et al (10) have shown that the presence of admixed minerals affects the rate of elimination of inhaled dusts from the lung.…”

mentioning

confidence: 99%