COTTON DUST EXPOSURE, ACROSS-SHIFT DROP IN FEV(1), AND 5-YEAR CHANGE IN LUNG-FUNCTION

To evaluate chronic loss of lung function in cotton dust-exposed worke rs, a 5-yr follow-up study was performed in Shanghai, China from 1981 to 1986. Workers at a nearby silk thread manufacturing mill were used as a control population. There were 384 cotton textile workers restudi ed from an original group of 446, and 403 silk workers restudied from the original 468. The presence of byssinosis among retested cotton wor kers at the time of first survey was 7.3%. The prevalence of byssinosi s was 9.7% at the initial survey among those lost to follow-up. No bys sinosis was found among control subjects. The mean annual decline in F EV(1) was 39.5 mi among cotton workers and 30.6 mi for silk workers (p < 0.05). The greatest annual decrements were found among smoking cott on workers, but nonsmoking cotton workers also lost lung function at a faster rate than silk nonsmokers (annual loss = 33.3 mt versus 24.4 m i, respectively). Autoregressive modeling revealed that after adjustme nts for age, sex, height, and smoking, cotton dust exposure was signif icantly associated with decline in FEV(1). Moreover, across-shift drop of 5% or more at the time of first survey was predictive of 5-yr decl ine in FEV(1). Cotton workers who had an acute response (5% or greater drop in FEV(1) at the time of first survey) suffered a 57.0 ml/yr FEV (1) drop compared with a 35.1-ml drop among cotton workers with less a cute response at baseline (p < 0.01). Silk workers with or without 5% across-shift drops had similar annual rates of decline (-33.8 mt and - 36.1 mi, respectively). After adjusting for appropriate confounders, w e found that continued exposure to cotton dust in the cotton textile i ndustry is associated with progressive impairment of lung function and that modest across-shift decrements in FEV(1) are strongly predictive of long term impairment of lung function. Workers chronically exposed to cotton dust are at risk of developing chronic airflow obstruction.