Lotz Gabriele, Plitzko Sabine, Gierke Erhardt, Tittelbach Ulrike, Kersten Norbert, Schneider W Dietmar
Federal Institute for Occupational Safety and Health, Berlin Office, Germany.
Int Arch Occup Environ Health. 2008 Aug;81(8):1003-19. doi: 10.1007/s00420-007-0294-9. Epub 2008 Jan 23.
Several studies have shown that underground salt miners may have an increased incidence of chest symptoms and sometimes decreased lung function. Miners of two salt mines were investigated to evaluate relationships between the lung function and the workplace exposure. The effect of nitrogen monoxide (NO) and nitrogen dioxide (NO(2)) was investigated in view of the recent debate on European occupational exposure limits.
A total of 410/463 miners (mine A/mine B) were examined cross-sectional and 75/64% of the first cohort were examined after a 5-year period. Exposure was measured by personal sampling. Personal lifetime exposure doses of salt dust, diesel exhaust, NO(2) and NO were calculated for all miners. Dose-response relationships were calculated by multiple regression analysis. Each exposure component acted as an indicator for the complex exposure.
Exposure response relationships were shown in the cross-sectional and longitudinal investigations in both mines. In the 5-year period, the adjusted (age, smoking, etc.) effect of the exposure indicators resulted in a mean decrease of FEV(1) between -18 ml/year (mine A) and -10 ml/year (mine B). The personal concentrations related to this effect were 12.6/7.1 mg/m(3) inhalable dust, 2.4/0.8 mg/m(3) respirable dust, 0.09/0.09 mg/m(3) diesel exhaust, 0.4/0.5 ppm NO(2) and 1.7/1.4 ppm NO (mine A/B). Exposure was related to symptoms of chronic bronchitis only in mine B.
The effects found in both mines indicate that the mixed exposure can cause lung function disorders in salt miners exposed over a long time. Because of the high correlation of the concentrations it was not possible to determine the effects of a single exposure component separately or to recommend a specific occupational exposure limit. However, possible maximum effects associated with the mixed exposure can be evaluated in the ranges of concentrations of the individual substances in the mines.
多项研究表明,地下盐矿工人胸部症状的发病率可能会增加,有时肺功能也会下降。对两个盐矿的矿工进行了调查,以评估肺功能与工作场所暴露之间的关系。鉴于近期关于欧洲职业接触限值的争论,对一氧化氮(NO)和二氧化氮(NO₂)的影响进行了研究。
对410/463名矿工(矿A/矿B)进行了横断面检查,对第一组队列中的75/64%在5年后进行了检查。通过个人采样测量暴露情况。计算了所有矿工的盐尘、柴油废气、NO₂和NO的个人终生暴露剂量。通过多元回归分析计算剂量反应关系。每个暴露成分作为复杂暴露的指标。
两个矿的横断面和纵向调查均显示了暴露反应关系。在5年期间,暴露指标的校正(年龄、吸烟等)效应导致第一秒用力呼气容积(FEV₁)平均每年下降-18毫升(矿A)至-10毫升(矿B)。与此效应相关的个人浓度分别为可吸入粉尘12.6/7.1毫克/立方米、呼吸性粉尘2.4/0.8毫克/立方米、柴油废气0.09/0.09毫克/立方米、NO₂0.4/0.5 ppm和NO 1.7/1.4 ppm(矿A/矿B)。仅在矿B中,暴露与慢性支气管炎症状有关。
两个矿中发现的影响表明,长期暴露的盐矿工人的混合暴露可导致肺功能障碍。由于浓度之间的高度相关性,无法单独确定单个暴露成分的影响或推荐特定的职业接触限值。然而,可以在矿中各物质浓度范围内评估与混合暴露相关的可能最大影响。
Zotero 插件