Rp. Musselman et al., BIOPERSISTENCES OF MAN-MADE VITREOUS FIBERS AND CROCIDOLITE FIBERS INRAT LUNGS FOLLOWING SHORT-TERM EXPOSURES, Environmental health perspectives, 102, 1994, pp. 139-143
Biopersistence of commercial man-made vitreous fibers (MMVF) and croci
dolite 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 da
ys to gravimetric concentrations (30 mg/m3) of two fiber glass composi
tions-a rockwool, and a slagwool-or to 10 mg/m3 of long-fibered crocid
olite, 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 re
covered from digested lung tissue to determine changes in concentratio
ns (fibers/mg dry lung) and fiber retentions (expressed as percent of
day 1 retention (PRI) for selected dimension categories. One-day avera
ge concentrations of lung-retained MMVF and crocidolite fibers, of dia
meter greater than or equal to 0.5 mu m or >20 mu m in length, were ne
arly equal, permitting direct comparisons between MMVF and crocidolite
. At 270 days average PR for MMVF greater than or equal to 0.5 mu m in
diameter were from 3 to 6 +/- 2% and 27 +/-:9% for crocidolite. For f
ibers >20 mu m, PR were 1 to 4 +/- 4% for MMVF and 37 +/- 20% for croc
idolite. At 545 days, MMVF >20 mu m in length were at background level
while concentration of crocidolite fibers >20 mu m in length remained
at 2000 +/- 400 f/mg DL (dry lungi, or 38 +/- 9% of day-1 retention.
These results suggest strongly that MMVF dissolved or fractured in viv
o whereas crocidolite fibers did not change.