BACKGROUND: Airborne fiber size has been shown to be an important factor relative to adverse lung effects of asbestos and suggested in animal studies of carbon nanotubes and nanofibers (CNT/CNF). MATERIALS AND METHODS: The International Standards Organization (ISO) transmission electron microscopy (TEM) method for asbestos was modified to increase the statistical precision of fiber size determinations, improve efficiency, and reduce analysis costs. Comparisons of the fiber size distributions and exposure indices by laboratory and counting method were performed. RESULTS: No significant differences in size distributions by the ISO and modified ISO methods were observed. Small but statistically-significant inter-lab differences in the proportion of fibers in some size bins were found, but these differences had little impact on the summary exposure indices. The modified ISO method produced slightly more precise estimates of the long fiber fraction (>15 μm). CONCLUSIONS: The modified ISO method may be useful for estimating size-specific structure exposures, including CNT/CNF, for risk assessment research.
BACKGROUND: Airborne fiber size has been shown to be an important factor relative to adverse lung effects of asbestos and suggested in animal studies of carbon nanotubes and nanofibers (CNT/CNF). MATERIALS AND METHODS: The International Standards Organization (ISO) transmission electron microscopy (TEM) method for asbestos was modified to increase the statistical precision of fiber size determinations, improve efficiency, and reduce analysis costs. Comparisons of the fiber size distributions and exposure indices by laboratory and counting method were performed. RESULTS: No significant differences in size distributions by the ISO and modified ISO methods were observed. Small but statistically-significant inter-lab differences in the proportion of fibers in some size bins were found, but these differences had little impact on the summary exposure indices. The modified ISO method produced slightly more precise estimates of the long fiber fraction (>15 μm). CONCLUSIONS: The modified ISO method may be useful for estimating size-specific structure exposures, including CNT/CNF, for risk assessment research.
Authors: Bean T Chen; Diane Schwegler-Berry; Walter McKinney; Samuel Stone; Jared L Cumpston; Sherri Friend; Dale W Porter; Vincent Castranova; David G Frazer Journal: Inhal Toxicol Date: 2012-10 Impact factor: 2.724
Authors: L Stayner; R Smith; J Bailer; S Gilbert; K Steenland; J Dement; D Brown; R Lemen Journal: Occup Environ Med Date: 1997-09 Impact factor: 4.402
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