Literature DB >> 9400692

Mineral properties and their contributions to particle toxicity.

G D Guthrie1.   

Abstract

It has been recognized since at least as early as the mid-1500s that inhaled minerals (i.e., inorganic particles) can pose a risk. Extensive research has focused on the biological mechanisms responsible for asbestos- and silica-induced diseases, but much less attention has been paid to the mineralogical properties and geochemical mechanisms that might influence a mineral's biological activity. Several important mineralogical characteristics control a mineral's reactivity in geochemical reactions and are likely to determine its biological reactivity. In addition to the traditionally considered variables of particle size and shape, mineralogical characteristics such as dissolution behavior, ion exchange, sorptive properties, and the nature of the mineral surface (e.g., surface reactivity) play important roles in determining the toxicity and carcinogenicity of a particle. Ultimately, a mineral's species (which provides direct information on a mineral's structure and composition) is probably one of the most significant yet most neglected factors that must be considered in studies of toxicity and carcinogenicity.

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Year:  1997        PMID: 9400692      PMCID: PMC1470178          DOI: 10.1289/ehp.97105s51003

Source DB:  PubMed          Journal:  Environ Health Perspect        ISSN: 0091-6765            Impact factor:   9.031


  39 in total

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Journal:  Am J Respir Cell Mol Biol       Date:  1994-11       Impact factor: 6.914
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  9 in total

1.  IL-33 mediates multi-walled carbon nanotube (MWCNT)-induced airway hyper-reactivity via the mobilization of innate helper cells in the lung.

Authors:  Celine A Beamer; Teri A Girtsman; Benjamin P Seaver; Krissy J Finsaas; Christopher T Migliaccio; Victoria K Perry; James B Rottman; Dirk E Smith; Andrij Holian
Journal:  Nanotoxicology       Date:  2012-06-29       Impact factor: 5.913

2.  Different particle determinants induce apoptosis and cytokine release in primary alveolar macrophage cultures.

Authors:  Magne Refsnes; Ragna B Hetland; Johan Øvrevik; Idunn Sundfør; Per E Schwarze; Marit Låg
Journal:  Part Fibre Toxicol       Date:  2006-06-14       Impact factor: 9.400

Review 3.  Occupational exposure to crystalline silica and autoimmune disease.

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Journal:  Environ Health Perspect       Date:  1999-10       Impact factor: 9.031

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Authors:  O Y Osinubi; M Gochfeld; H M Kipen
Journal:  Environ Health Perspect       Date:  2000-08       Impact factor: 9.031

Review 5.  Dissolution and biodurability: Important parameters needed for risk assessment of nanomaterials.

Authors:  Wells Utembe; Kariska Potgieter; Aleksandr Byron Stefaniak; Mary Gulumian
Journal:  Part Fibre Toxicol       Date:  2015-04-28       Impact factor: 9.400

6.  Natural mineral particles are cytotoxic to rainbow trout gill epithelial cells in vitro.

Authors:  Christian Michel; Simon Herzog; Christian de Capitani; Patricia Burkhardt-Holm; Constanze Pietsch
Journal:  PLoS One       Date:  2014-07-03       Impact factor: 3.240

7.  Haemolytic activity of soil from areas of varying podoconiosis endemicity in Ethiopia.

Authors:  Jennifer S Le Blond; Peter J Baxter; Dhimiter Bello; Jennifer Raftis; Yordanos B Molla; Javier Cuadros; Gail Davey
Journal:  PLoS One       Date:  2017-05-11       Impact factor: 3.240

8.  Decrease in Intracellular Perforin Levels and IFN-γ Production in Human CD8+ T Cell Line following Long-Term Exposure to Asbestos Fibers.

Authors:  Naoko Kumagai-Takei; Yasumitsu Nishimura; Hidenori Matsuzaki; Suni Lee; Kei Yoshitome; Takemi Otsuki
Journal:  J Immunol Res       Date:  2018-10-23       Impact factor: 4.818

9.  The α-β phase transition in volcanic cristobalite.

Authors:  David E Damby; Edward W Llewellin; Claire J Horwell; Ben J Williamson; Jens Najorka; Gordon Cressey; Michael Carpenter
Journal:  J Appl Crystallogr       Date:  2014-06-14       Impact factor: 3.304
  9 in total

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