Walter Eastes scite author profile

Walter Eastes

5Publications

78Citation Statements Received

27Citation Statements Given

How they've been cited

165

How they cite others

Affiliations

Owens Corning (United States), United States Gypsum (United States)

Publications

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Biopersistences of Man-Made Vitreous Fibers and Crocidolite Fibers in Rat Lungs Following Short-Term Exposures

Musselman¹,

Miiller²,

Eastes³

et al. 1994

Environmental Health Perspectives

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'USG, Chicago, Illinois; 2Schuller; 3OCF, USA; 4Rockwool, Denmark; 5RCC, Swiss Biopersistence of commercial man-made vitreous fibers (MMVF) and crocidolite were studied in Fischer 344 rats. MMVF used were size-selected to be rat-respirable, and rats were exposed nose-only 6 h/day for 5 days to gravimetric concentrations (30 mg/m3) of two fiber glass compositionsa rockwool, and a slagwool-or to 10 mg/i3 of long-fibered crocidolite, or to filtered air. Animals were sacrificed at 1 hr, 1,5, 31, 90, 180, 270, 365, and 545 days after exposure stopped. Fibers were recovered from digested lung tissue to determine changes in concentrations (fibers/mg dry lung) and fiber retentions (expressed as percent of day 1 retention [PR]) for selected dimension categories. One-day average concentrations of lungretained MMVF and crocidolite fibers, of diameter .0.5 pm or >20 pm in length, were nearly equal, permitting direct comparisons between MMVF and crocidolite. At 270 days average PR for MMVF .0.5 pm in diameter were from 3 to 6 ± 2% and 27 ± 9% for crocidolite. For fibers >20 pm, PR were 1 to 4 ± 4% for MMVF and 37 ± 20% for crocidolite. At 545 days, MMVF >20 pm in length were at background level while concentration of crocidolite fibers >20 pm in length remained at 2000 ± 400 f/mg DL (dry lung), or 38 ± 9% of day-1 retention. These results suggest strongly that MMVF dissolved or fractured in vivo whereas crocidolite fibers did not change. -Environ Health Perspect 102(Suppl 5): 139-143 (1994)

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Dissolution of Fibers Inhaled by Rats

Eastes

Hadiey

1995

Inhalation Toxicology

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A Mathematical Model of fiber Carcinogenicity and Fibrosis in Inhalation and Intraperitoneal Experiments in Rats

Eastes

Hadley

1996

Inhalation Toxicology

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Biopersistences of man-made vitreous fibers and crocidolite fibers in rat lungs following short-term exposures.

Musselman

Miiller

Eastes

et al. 1994

Environ Health Perspect

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Biopersistence of commercial man-made vitreous fibers (MMVF) and crocidolite were studied in Fischer 344 rats. MMVF used were size-selected to be rat-respirable, and rats were exposed nose-only 6 h/day for 5 days to gravimetric concentrations (30 mg/m3) of two fiber glass compositions--a rockwool, and a slagwool--or to 10 mg/m3 of long-fibered crocidolite, or to filtered air. Animals were sacrificed at 1 hr, 1, 5, 31, 90, 180, 270, 365, and 545 days after exposure stopped. Fibers were recovered from digested lung tissue to determine changes in concentrations (fibers/mg dry lung) and fiber retentions (expressed as percent of day 1 retention [PR]) for selected dimension categories. One-day average concentrations of lung-retained MMVF and crocidolite fibers, of diameter > or = 0.5 micron or > 20 microns in length, were nearly equal, permitting direct comparisons between MMVF and crocidolite. At 270 days average PR for MMVF > or = 0.5 micron in diameter were from 3 to 6 +/- 2% and 27 +/- 9% for crocidolite. For fibers > 20 microns, PR were 1 to 4 +/- 4% for MMVF and 37 +/- 20% for crocidolite. At 545 days, MMVF > 20 microns in length were at background level while concentration of crocidolite fibers > 20 microns in length remained at 2000 +/- 400 f/mg DL (dry lung), or 38 +/- 9% of day-1 retention. These results suggest strongly that MMVF dissolved or fractured in vivo whereas crocidolite fibers did not change.

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Quantitative Risk Assessment for a Glass Fiber Insulation Product

Fayerweather

Bender

Hadley

et al. 1997

Regulatory Toxicology and Pharmacology

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Walter Eastes

Biopersistences of Man-Made Vitreous Fibers and Crocidolite Fibers in Rat Lungs Following Short-Term Exposures

Dissolution of Fibers Inhaled by Rats

A Mathematical Model of fiber Carcinogenicity and Fibrosis in Inhalation and Intraperitoneal Experiments in Rats

Biopersistences of man-made vitreous fibers and crocidolite fibers in rat lungs following short-term exposures.

Quantitative Risk Assessment for a Glass Fiber Insulation Product

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