Abstract
The aim of this study is to characterize personal exposure of workers to respirable particulate matter (PM) generated in cutting and other fabrication activities when fabricating acryl polymer/aluminium trihydroxide synthetic countertops. We collected 29 personal full-day samples of respirable PM from three workers in a small private workshop. We tested differences between- and within-worker variances of mass concentrations using the Kruskall-Wallis test. We used segmented regression to test the means and medians 15-min interval concentrations changes over time and to identify a breakpoint. Respirable PM concentrations ranged nearly 100-fold, from 0.280 to 25.4 mg/m3 with a median of 2.0 mg/m3 (1-min concentrations from 13,920 data points). There were no statistical difference in daily median or geometric mean concentrations among workers, whereas the concentrations were significantly higher on days with three versus two workers present. The 15-min median concentrations (n = 974 measures) increased until 2.35 h (beta 0.177; p < 0.05), representing a 0.70 mg increase in exposure per hour. This was followed by a plateau in concentrations. The high levels of respirable PM we observed among workers fabricating aluminium trihydroxide-containing synthetic countertops highlight an unmet early prevention need.
Highlights
The aim of this study is to characterize personal exposure of workers to respirable particulate matter (PM) generated in cutting and other fabrication activities when fabricating acryl polymer/ aluminium trihydroxide synthetic countertops
Aluminium trihydroxide (ATH)-containing synthetics comprise an important type of material to be considered in the exposure assessment of countertop fabrication
In one set of simulated exposures, dust generated from cutting CorianTM was 32% in the respirable size range, contained 82% aluminium hydroxide, and had a respirable mass concentration as high as 1.52 mg/m33, 7
Summary
The aim of this study is to characterize personal exposure of workers to respirable particulate matter (PM) generated in cutting and other fabrication activities when fabricating acryl polymer/ aluminium trihydroxide synthetic countertops. Chronic inhalational exposure to dust from cutting and sanding CorianTM, a major brand of aluminium hydroxide/trioxide ATH containing synthetic countertop, has been implicated in at least one well-documented case report of lung fibrosis[5]. In one set of simulated exposures, dust generated from cutting CorianTM was 32% in the respirable size range, contained 82% aluminium hydroxide, and had a respirable mass concentration as high as 1.52 mg/m33, 7. The aim of this study was to characterize personal exposure of workers to respirable particulate matter generated in cutting and other fabrication activities when working with acryl polymer/aluminium oxide (off-patent Corian) in a typical, small countertop operation
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