Nakano Makiko, Tanaka Akiyo, Hirata Miyuki, Iwasawa Satoko, Omae Kazuyuki
Department of Preventive Medicine and Public Health, Keio University School of Medicine.
J Occup Health. 2015;57(4):346-52. doi: 10.1539/joh.14-0262-OA. Epub 2015 May 8.
Indium was added to the list of substances regulated by the Ordinance on Prevention of Hazards due to Specified Chemical Substances (OPHSCS) in 2013. Indium metal (IM), however, is not regulated by the OPHSCS due to insufficient information on pulmonary effects following exposure.
From 2011 to 2013, a cross-sectional study was conducted on 141 IM-exposed workers at 11 factories. Subjective symptoms were assessed, including levels of serum biomarkers, spirometry readings and total and diffuse lung capacity. Krebs von den Lungen-6 (KL-6) and surfactant protein D (SP-D) were selected as biomarkers of interstitial pneumonia. Indium serum concentration (In-S) and personal air sampling data were used to estimate exposure. Subjects were categorized into 5 groups based on occupation and type of exposure: smelting, soldering, dental technician, bonding and other.
The highest level of In-S was 25.4 µg/l, and the mean In-S level was significantly higher in the smelting group than in other groups. In the smelting group, the prevalence of increased In-S levels was 9.1%, while that of abnormal KL-6 was 15.2%. A significant dose-effect relationship was observed between the In-S and KL-6 levels. No marked differences were observed between any of the groups in SP-D values, pulmonary symptoms, or pulmonary function test results. A total of 31% of the subjects worked in an environment with IM levels exceeding 0.3 µg/m(3), which requires a protective mask to be worn.
For workers exposed to IM, work environments should be monitored, appropriate protective masks should be worn, and medical monitoring should be conducted according to the OPHSCS.
铟于2013年被列入《特定化学物质危害预防条例》(OPHSCS)所管制的物质清单。然而,由于关于接触后肺部影响的信息不足,金属铟(IM)不受OPHSCS管制。
2011年至2013年,对11家工厂的141名接触IM的工人进行了横断面研究。评估了主观症状,包括血清生物标志物水平、肺活量测定读数以及肺总量和弥散容量。选择克雷布斯冯登肺-6(KL-6)和表面活性蛋白D(SP-D)作为间质性肺炎的生物标志物。使用铟血清浓度(In-S)和个人空气采样数据来估计接触情况。根据职业和接触类型将受试者分为5组:熔炼、焊接、牙科技师、粘结和其他。
In-S的最高水平为25.4μg/l,熔炼组的平均In-S水平显著高于其他组。在熔炼组中,In-S水平升高的患病率为9.1%,而KL-6异常的患病率为15.2%。观察到In-S水平与KL-6水平之间存在显著的剂量效应关系。在SP-D值、肺部症状或肺功能测试结果方面,各组之间未观察到明显差异。共有31%的受试者在IM水平超过0.3μg/m³的环境中工作,而这一水平要求佩戴防护口罩。
对于接触IM的工人,应监测工作环境,佩戴适当的防护口罩,并根据OPHSCS进行医学监测。
