Institute for Prevention and Occupational Medicine of the German Social Accident Insurance, Institute of the Ruhr University Bochum (IPA), Bochum, Germany.
Institute for Occupational Safety and Health of the German Social Accident Insurance (IFA), Sankt Augustin, Germany.
Ann Work Expo Health. 2017 Nov 10;61(9):1108-1117. doi: 10.1093/annweh/wxx080.
Due to mounting evidence of neurotoxic effects of manganese (Mn) already at low concentrations, occupational exposure limits (OELs) have been adopted. We analyzed 5771 personal measurements of inhalable manganese (Mn) together with information on sampling conditions and job tasks from the German exposure database Messdaten zur Exposition gegenüber Gefahrstoffen am Arbeitsplatz (MEGA) to assess exposure levels in welders and other occupations between 1989 and 2015. Geometric means (GMs) of exposure to Mn were estimated for various occupational settings adjusted for 2-h sampling duration and analytical method, centered at 2009. Measurements below the limit of quantification (LOQ) were multiply imputed. The median concentration was 74 µg m-3 (inter-quartile range 14-260 µg m-3) in welders and 8 µg m-3 (inter-quartile range <LOQ-31 µg m-3) in other occupations. Every third measurement was higher than 100 µg m-3, 20% exceeded 200 µg m-3, and 5% of welders inhaled concentrations ≥1000 µg m-3. GMs >100 µg m-3 were observed in gas metal and flux-cored arc welders and in shielded metal arc welders using consumables of high Mn content (>5%). Tungsten inert gas welding, laser welding and working in other occupations such as foundry worker, electroplater, or grinder were associated with GMs <10 µg m-3. A shorter sampling duration was associated with higher Mn concentrations. High-emission welding techniques require protective measures to cope with adopted OELs. Results of this study are useful to assess cumulative Mn exposure in community-based studies on neurotoxic effects.
由于已经有越来越多的证据表明,锰(Mn)即使在低浓度下也具有神经毒性作用,因此已经制定了职业接触限值(OEL)。我们分析了德国暴露数据库 Messdaten zur Exposition gegenüber Gefahrstoffen am Arbeitsplatz(MEGA)中 1989 年至 2015 年间 5771 名可吸入锰(Mn)个人测量值以及有关采样条件和工作任务的信息,以评估焊工和其他职业的暴露水平。针对各种职业环境,根据 2 小时采样时间和分析方法,对暴露于 Mn 的几何平均值(GM)进行了调整,以 2009 年为中心。低于定量下限(LOQ)的测量值被多次估算。焊工的中位数浓度为 74 µg m-3(四分位间距 14-260 µg m-3),其他职业的中位数浓度为 8 µg m-3(四分位间距 <LOQ-31 µg m-3)。每 3 次测量中就有 1 次高于 100 µg m-3,20%的测量值超过 200 µg m-3,5%的焊工吸入浓度≥1000 µg m-3。在使用高 Mn 含量(>5%)耗材的气体金属和药芯焊丝电弧焊以及保护金属电弧焊中,观察到 GM >100 µg m-3。钨极惰性气体焊、激光焊以及铸造工、电镀工或研磨工等其他职业的 GM <10 µg m-3。采样时间较短与较高的 Mn 浓度相关。高排放焊接技术需要采取防护措施来应对已采用的 OEL。本研究的结果可用于评估社区研究中神经毒性作用的累积 Mn 暴露情况。
