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Occupational exposure

Conflicting results have been observed in studies investigating the effect of occupational exposure to formaldehyde on pulmonary functions. In a number of studies of chemical, furniture and plywood workers, pre-shift reduction of up to 12% in lung function parameters (e.g., forced vital capacity, forced expiratory volume, forced expiratory flow rate) were reported for mean formaldehyde concentrations that were < 0.42 ppm (< 0.5 mg/m³) (Alexandersson & Hedenstierna, 1988; 1989; Herbert et al., 1994; Holmstrom & Wilhelmsson, 1988) and, in one study at 1.13 ppm (1.3 mg/m³) (Malaka & Kodama, 1990). Changes were generally small and transient over a work shift, with a cumulative effect over several years that was reversible after relatively short periods without exposure (e.g.. 4 weeks); effects were more obvious in smokers than non-smokers (Alexandersson & Hedenstierna, 1989). In the only study where it was examined, a dose-response relationship between formaldehyde exposure and decreased lung function was observed in a group of 21 workers in wood product manufacturing exposed to mean formaldehyde concentrations of 0.35 – 0.42 ppm (0.42 – 0.50 mg/m³) (Alexandersson & Hedenstierna, 1989). In contrast, no conclusive evidence of diminished lung function was observed in studies of larger numbers

0.17 - 2.93 ppm (0.20 – 3.5 mg/m³) formaldehyde. In contrast, in a study by Nunn

et al. (1990) there was no evidence to suggest that respiratory symptoms (such as wheeze) were more common in 125 workers exposed to concentrations up to and greater than 2.0 ppm (> 2.4 mg/m³) formaldehyde compared to controls.
Data are also available from studies that have investigated the histological changes within the nasal epithelium of workers occupationally exposed to gaseous formaldehyde.
In a case-control study of 15 workers in a plywood factory exposed to 0.08 – 0.6 ppm (0.1 - 0.7 mg/m³) formaldehyde through use of urea-formaldehyde glue, a statistically significant increase in the incidence of squamous metaplasia was seen in workers exposed to formaldehyde (Ballarin et al., 1992). However, there was also co-exposure to respirable wood dust whose contribution to these findings cannot be excluded. The most comprehensive study, and the only one with individual estimates of exposure based on area and personal sampling, investigated histological effects in 70 workers at a formaldehyde manufacturing plant and 36 controls (Holmstrom et al., 1989). A statistically significant increase in the mean histological score for morphological changes was seen in formaldehyde-exposed workers compared to controls; mean exposure 0.25 ppm

(0.3 mg/m³) formaldehyde, with frequent short peaks of exposures above 0.8 ppm

(0.96 mg/m³). This study also examined histopathological changes in the nasal epithelium in workers exposed to both 0.17 – 0.25 ppm (0.20 - 0.3 mg/m³) formaldehyde and wood dust, and found no significant changes when compared to controls. A further study of 75 workers exposed to 0.08 – 0.9 ppm (0.1 - 1.1 mg/m³) formaldehyde (with peaks of 4.2 ppm [5.0 mg/m³] or 0.5 – 0.9 ppm [0.6 -

1.1 mg/m³]) and wood dust observed statistically significant increases in mean histopathological scores for both exposure groups compared to controls (Edling et al., 1988). There was no significant variation between the two exposure groups themselves. The mean histopathological score was also approximately the same regardless of duration of exposure, although this may be attributable to the small numbers of the sub-groups (i.e. 23 - 28).