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Results:
1-13
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Results: 13
Authors:
Ball, JC
Straccia, AM
Young, WC
Aust, AE
Citation: Jc. Ball et al., The formation of reactive oxygen species catalyzed by neutral, aqueous extracts of NIST ambient particulate matter and diesel engine particles, J AIR WASTE, 50(11), 2000, pp. 1897-1903
Authors:
Ball, BR
Smith, KR
Veranth, JM
Aust, AE
Citation: Br. Ball et al., Bioavailability of iron from coal fly ash: Mechanisms of mobilization and of biological effects, INHAL TOXIC, 12, 2000, pp. 209-225
Authors:
Aust, AE
Lund, LG
Chao, CC
Park, SH
Fang, RH
Citation: Ae. Aust et al., Role of iron in the cellular effects of asbestos, INHAL TOXIC, 12, 2000, pp. 75-80
Authors:
Shen, ZH
Bosbach, D
Hochella, MF
Bish, DL
Williams, MG
Dodson, RF
Aust, AE
Citation: Zh. Shen et al., Using in vitro iron deposition on asbestos to model asbestos bodies formedin human lung, CHEM RES T, 13(9), 2000, pp. 913-921
Authors:
Veranth, JM
Smith, KR
Hu, AA
Lighty, JS
Aust, AE
Citation: Jm. Veranth et al., Mobilization of iron from coal fly ash was dependent upon the particle size and source of coal: Analysis of rates and mechanisms, CHEM RES T, 13(5), 2000, pp. 382-389
Authors:
Veranth, JM
Smith, KR
Huggins, F
Hu, AA
Lighty, JS
Aust, AE
Citation: Jm. Veranth et al., Mossbauer spectroscopy indicates that iron in an aluminosilicate glass phase is the source of the bioavailable iron from coal fly ash, CHEM RES T, 13(3), 2000, pp. 161-164
Authors:
Smith, KR
Veranth, JM
Hu, AA
Lighty, JS
Aust, AE
Citation: Kr. Smith et al., Interleukin-8 levels in human lung epithelial cells are increased in response to coal fly ash and vary with the bioavailability of iron, as a function of particle size and source of coal, CHEM RES T, 13(2), 2000, pp. 118-125
Authors:
Veranth, JM
Smith, KR
Aust, AE
Dansie, SL
Griffin, JB
Hu, AA
Huggins, ML
Lightly, JS
Citation: Jm. Veranth et al., Coal fly ash and mineral dust for toxicology and particle characterizationstudies: Equipment and methods for PM2.5-and PM1-enriched samples, AEROS SCI T, 32(2), 2000, pp. 127-141
Authors:
Fubini, B
Giamello, E
Mollo, L
Zanetti, G
Eborn, SK
Aust, AE
Citation: B. Fubini et al., Zeolites as model solids for investigations on the role of iron at the solid-liquid interface in particulate toxicity, RES CHEM IN, 25(1), 1999, pp. 95-109
Authors:
van Maanen, JMS
Borm, PJA
Knaapen, A
van Herwijnen, M
Schilderman, PAEL
Smith, KR
Aust, AE
Tomatis, M
Fubini, B
Citation: Jms. Van Maanen et al., In vitro effects of coal fly ashes: Hydroxyl radical generation, iron release, and DNA damage and toxicity in rat lung epithelial cells, INHAL TOXIC, 11(12), 1999, pp. 1123-1141
Authors:
Aust, AE
Eveleigh, JF
Citation: Ae. Aust et Jf. Eveleigh, Mechanisms of DNA oxidation, P SOC EXP M, 222(3), 1999, pp. 246-252
Authors:
Smith, KR
Veranth, JM
Lighty, JS
Aust, AE
Citation: Kr. Smith et al., Mobilization of iron from coal fly ash was dependent upon the particle size and the source of coal, CHEM RES T, 11(12), 1998, pp. 1494-1500
Authors:
Park, SH
Aust, AE
Citation: Sh. Park et Ae. Aust, Regulation of nitric oxide synthase induction by iron and glutathione in asbestos-treated human lung epithelial cells, ARCH BIOCH, 360(1), 1998, pp. 47-52
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