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Inhalation Toxicology
International Forum for Respiratory Research
Volume 18, 2006 - Issue 12
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Research Article

Mineral–Fluid Interaction in the Lungs: Insights From Reaction-Path Modeling

Scott A. Wood Department of Geological Sciences, University of Idaho, Moscow, Idaho, USA
,
Anne E. Taunton Department of Geological Sciences, University of Idaho, Moscow, Idaho, USA
,
Charles Normand Département des Sciences de la Terre et de l'Atmosphère, Université du Québec à Montréal, Montréal, Québec, Canada
&
Mickey E. Gunter Department of Geological Sciences, University of Idaho, Moscow, Idaho, USA
Pages 975-984 | Received 10 Mar 2006, Accepted 19 Apr 2006, Published online: 06 Oct 2008

REFERENCES

  • Ahn J. H., Cho M., Jenkins D. M. Structural defects in synthetic tremolitic amphiboles. Am. Mineral. 1991; 76: 1811–1823, [CSA]
  • Bales R. C., Morgan J. J. Dissolution kinetics of chrysotile at pH 7 to 10. Geochim. Cosmochim. Acta 1985; 49: 2281–2288, [CROSSREF], [CSA]
  • Bell G. H., Davidson J. N., Emslie-Smith D. Textbook of physiology and biochemistry. Williams & Wilkins, Baltimore, MD 1972
  • Bethke C. M. Chemical reaction modeling. Oxford University Press, New York 1996
  • Boettcher A. L. Vermiculite, hydrobiotite, and biotite in the Rainy Creek igneous complex near Libby, Montana. Clay Minerals 1966; 6: 283–296, [CSA]
  • Boettcher A. L. The Rainy Creek alkaline-ultramafic igneous complex near Libby, Montana. I: Ultramafic rocks and fenite. J. Geol. 1967; 75: 526–553, [CSA]
  • Case B. W. Health effects of tremolite. Ann. NY Acad. Sci. 1991; 643: 491–504, [INFOTRIEVE], [CSA]
  • Churg A. Asbestos lung burden and disease patterns in man. Health effects of mineral dusts, G. D. Guthrie, B. T. Mossman, 1993; 28: 410–426, Rev. Mineral.
  • Churg A., Wright J., Gilks B., Depaoli L. Rapid short term clearance of chrysotile compared to amosite asbestos in the guinea pig. Am. Rev. Respir. Dis. 1989; 139: 885–890, [INFOTRIEVE], [CSA]
  • Dove P. M. The dissolution kinetics of quartz in aqueous mixed cation solutions. Geochim. Cosmochim. Acta 1999; 63: 3715–3727, [CROSSREF], [CSA]
  • Drever J. I. The geochemistry of natural waters, 3rd ed. Prentice Hall, Saddle River, NJ 1997
  • Ganong W. F. Medical physiology. Lange Medical, Los Altos, CA 1979
  • Green J. H. An introduction to human physiology. Oxford University Press, London 1972
  • Gronow J. R. The dissolution of asbestos fibres in water. Clay Minerals 1987; 22: 21–35, [CSA]
  • Helgeson H. C., Garrels R. M., Mackenzie F. T. Evaluation of irreversible reactions in geochemical processes involving minerals and aqueous solutions: II. Applications. Geochim. Cosmochim. Acta 1969; 33: 455–481, [CROSSREF], [CSA]
  • Hesterberg T. W., Hart G. A. Lung biopersistence and in vitro dissolution rate predict the pathogenic potential of synthetic vitreous fibers. Inhal. Toxicol. 2000; 12: 91–97, [CROSSREF], [CSA]
  • Houssay B. A., Lewis J. T., Orias O., Menendez E., Hug E., Foglia V. G., Leloir L. F. Human physiology. McGraw-Hill, New York 1951
  • Hume L. A., Rimstidt J. D. The biodurability of chrysotile asbestos. Am. Mineral. 1992; 77: 1125–1128, [CSA]
  • Jenkins D. M., Hawthorne F. C. Synthesis and Rietveld refinement of amphibole along the join Ca2Mg5Si8O22F2–NaCa2Mg4Ga3Si6O22F2. Can. Mineral. 1995; 33: 13–24, [CSA]
  • Johnson J. W., Oelkers E. H., Helgeson H. C. SUPCRT92: A software package for calculating the standard molal thermodynamic properties of minerals, gases, aqueous species, and reactions from 1–5000 bars and 0–1000°C. Comp. Geosci. 1992; 18: 899–947, [CROSSREF], [CSA]
  • Jurinski J. B., Rimstidt J. D. Biodurability of talc. Am. Mineral. 2001; 86: 392–399, [CSA]
  • Kanapilly G. M. Alveolar microenvironment and its relationship to the retention and transport into blood of aerosols deposited in the alveoli. Health Phys. 1977; 32: 89–100, [INFOTRIEVE], [CSA]
  • Krauskopf K. B., Bird D. K. Introduction to geochemistry, 3rd ed. McGraw-Hill, New York 1995
  • Langmuir D. Aqueous environmental geochemistry. Prentice Hall, Saddle River, NJ 1997
  • Luce R. W., Barlett R. W., Parks G. A. Dissolution kinetics of magnesium silicates. Geochim. Cosmochim. Acta 1972; 36: 35–50, [CROSSREF], [CSA]
  • Maresch W. V., Czank M., Schreyer W. Growth mechanisms, structural defects and composition of synthetic tremolite–What are the effects on macroscopic properties. Contrib. Mineral. Petrol. 1994; 118: 297–313, [CROSSREF], [CSA]
  • Mast M. A., Drever J. I. The effect of oxalate on the dissolution rates of oligoclase and tremolite. Geochim. Cosmochim. Acta 1987; 51: 2559–2568, [CROSSREF], [CSA]
  • Mattson S. M. Glass fibres in simulated lung fluid: dissolution behaviour and analytical requirements. Ann. Occup. Hyg. 1994; 38: 857–877, [CSA]
  • Meeker G. P., Bern A. M., Brownfield I. K., Lowers H. A., Sutley S. J., Hoefen T. M., Vance J. S. The composition and morphology of amphibole from the Rainy Creek Complex, near Libby, Montana. Am. Mineral. 2003; 88: 1955–1969, [CSA]
  • Moolgavkar S. H., Brown R. C., Turim J. Biopersistence, fiber length, and cancer risk assessment for inhaled fibers. Inhal. Toxicol. 2001; 13: 755–772, [INFOTRIEVE], [CROSSREF], [CSA]
  • Nayebzadeh A., Dufresne A., Case B. W., Vali H., Williams-Jones A. E., Martin R. F., Normand C., Clark J. R. Lung mineral fibres of former miners and millers from Thetford and Asbestos regions: A comparative study of fibre concentration and dimension. Arch. Environ. Health 2001; 56: 65–76, [INFOTRIEVE], [CSA]
  • Nelson B. J., Wood S. A., Gunter M. E. Dissolution kinetics of tremolite asbestos under simulated lung conditions, (in prep.)
  • Norton M. R., Gunter M. E. Relationships between respiratory diseases and quartz-rich dust in Idaho. Am. Mineral. 1999; 84: 1009–1019, [CSA]
  • Parry W. T. Calculated solubility of chrysotile asbestos in physiological systems. Environ. Res. 1985; 37: 410–418, [INFOTRIEVE], [CROSSREF], [CSA]
  • Pawley A. R., Graham C. M., Navrotsky A. Tremolite-richterite amphiboles—Synthesis, compositional and structural characterization, and thermochemistry. Am. Mineral. 1993; 78: 23–35, [CSA]
  • Reed M. H. Calculation of simultaneous chemical equilibria in aqueous-mineral-gas systems and its application to modeling hydrothermal processes. Techniques in hydrothermal ore deposit geology, J. P. Richards, P. B. Larson, 1998; 10: 109–124, Rev. Econ. Geol.
  • Rimstidt J. D., Barnes H. L. The kinetics of silica–water reactions. Geochim. Cosmochim. Acta 1980; 44: 1683–1699, [CROSSREF], [CSA]
  • Searl A., Buchanan D., Cullen R. T., Jones A. D., Miller B. G., Soutar C. A. Biopersistence and durability of nine mineral fibre types in rat lungs over 12 months. Ann. Occup. Hyg. 1999; 43: 143–153, [INFOTRIEVE], [CROSSREF], [CSA]
  • Thomassin J. H., Goni J., Baillif P., Touray J. C., Jaurand M. C. An XPS study of the dissolution kinetics of chrysotile in 0.1N oxalic acid at different temperatures. Phys. Chem. Min. 1977; 1: 385–398, [CROSSREF], [CSA]
  • van Oss C. J., Naim J. O., Costanzo P. M., Giese R. F., Wu W., Sorling A. F. Impact of different asbestos species and other mineral particles on pulmonary pathogenesis. Clays Clay Min. 1999; 47: 697–707, [CSA]
  • Veblen D. R., Wylie A. G. Mineralogy of amphiboles and 1:1 layer silicates. Health effects of mineral dusts, G. D. Guthrie, B. T. Mossman, 1993; 28: 61–137, Rev. Mineral.
  • Wagner J. C., Griffiths D. M., Munday D. E. Recent investigations in animals and humans. The biological effects of chrysotile, J. C. Wagner. J. B. Lippincott, Philadelphia 1987; vol. 1: 111–120
  • Werner A. J., Hochella M. F., Guthrie G. D., Hardy J. A. Asbestiform riebeckite (crocidolite) dissolution in the presence of Fe chelators: Implications for mineral-induced disease. Am. Mineral. 1995; 80: 1093–1103, [CSA]
  • Wolery T. J. Calculations of chemical equilibrium between aqueous solution and minerals: The EQ3/6 software package. Lawrence Livermore National Laboratory, University of California Research Laboratories. 1979, report 52658
  • Wood S. A. Calculation of activity-activity and log fO2–pH diagrams. Techniques in hydrothermal ore deposits, J. Richards, P. Larson, 1998; 10: 81–96, Rev. Econ. Geol.
  • Ziegler T. L., Plumlee G. S., Lamothe P. J., Meeker G. P., Witten M. L., Sutley S. J., Hinkley T. K., Wilson S. A., Hoefen T. F., Brownfield I. K., Lowers H. Mineralogical, geochemical, and toxicological variations of asbestos toxicological standards and amphibole samples from Libby, MT. Abstr. Prog. Geol. Society Am. 2002; 34: 146, [CSA]
  • Zimmerman R., Heinrich W., Franz G. Tremolite synthesis from CaCl2-bearing aqueous solutions. Eur. J. Mineral. 1996; 8: 767–776, [CSA]
  • Zoitos B. K., De Meringo A., Rouyer E., Thelohan S., Bauer J., Law B., Boymel P. M., Olson J. R., Christensen V. R., Guldberg M., Koenig A. R., Perander M. In vitro measurement of fiber dissolution rate relevant to biopersistence at neutral pH: An interlaboratory round robin. Inhal. Toxicol. 1997; 9: 525–540, [CROSSREF], [CSA]

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