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本文引用的文献

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Assessment of workplace air concentrations of indium dust in an indium-recycling plant.评估铟回收工厂中铟尘的工作场所空气浓度。
J Occup Health. 2012;54(2):103-11. doi: 10.1539/joh.11-0233-oa. Epub 2012 Feb 10.
3
Inhalation carcinogenicity and chronic toxicity of indium-tin oxide in rats and mice.铟锡氧化物在大鼠和小鼠中的吸入致癌性和慢性毒性。
J Occup Health. 2011;53(3):175-87. doi: 10.1539/joh.10-0057-oa. Epub 2011 Apr 7.
4
Indium lung--case reports and epidemiology.铟肺——病例报告和流行病学。
Int Arch Occup Environ Health. 2011 Jun;84(5):471-7. doi: 10.1007/s00420-010-0575-6. Epub 2010 Oct 1.
5
Evaluation of the control banding method--comparison with measurement-based comprehensive risk assessment.控制带方法的评估——与基于测量的综合风险评估的比较。
J Occup Health. 2007 Nov;49(6):482-92. doi: 10.1539/joh.49.482.
6
Margins of safety provided by COSHH Essentials and the ILO Chemical Control Toolkit.《控制危害健康物质条例》要点及国际劳工组织化学品控制工具包提供的安全边际。
Ann Occup Hyg. 2006 Mar;50(2):149-56. doi: 10.1093/annhyg/mei054. Epub 2005 Sep 19.
7
Interstitial pneumonia developed in a worker dealing with particles containing indium-tin oxide.一名处理含铟锡氧化物颗粒的工人患上了间质性肺炎。
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13 家日本铟厂工人接触铟及其化合物的控制带评估。

Control banding assessment of workers' exposure to indium and its compounds in 13 Japanese indium plants.

机构信息

Occupational Health Research and Development Center, Japan Industrial Safety and Health Association.

The Association of Industrial Health.

出版信息

J Occup Health. 2018 May 25;60(3):263-270. doi: 10.1539/joh.2017-0261-BR. Epub 2018 Mar 20.

DOI:10.1539/joh.2017-0261-BR
PMID:29563364
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5985350/
Abstract

OBJECTIVES

This study aimed to assess workers' exposure to indium and its compounds in 55 indium-handling operations among 13 Japanese plants. The surveyed plants were selected from indium-manufacturing plants whose annual indium production exceeded 500 kg.

METHODS

The Control of Substances Hazardous to Health (COSHH) Essentials control banding toolkit, which contains simple scales for hazard levels, quantities in daily use, and "dustiness" characteristics, was used to assess generic risks of indium-handling operations. The operations were then classified into one of four Control Approaches (CAs).

RESULTS

There were 35 indium-handling operations classified into CA4 (requires expert advice) and 16 grouped into CA3 (requires containment). There were three operations classified into CA2 (requires engineering controls) and only one into CA1 (requires good general ventilation (GV) and working practices). Of the 51 operations classified as CA4 and CA3, 36 were found to be improperly equipped with local exhaust ventilation, and the remaining 15 operations solely relied on GV practices. Respiratory protective equipment (RPE) used in the 13 indium plants was examined with reference to the recommendations of the COSHH Essentials and Japan's Technical Guidelines.

CONCLUSIONS

Our findings suggest that stringent engineering control measures and respiratory protection from indium dust are needed to improve indium-handling operations. Our results show that the most common control approach for Japanese indium-handling operations is to require expert advice, including worker health checks for respiratory diseases and exposure measurement by air sampling.

摘要

目的

本研究旨在评估 13 家日本工厂的 55 项铟处理操作中工人接触铟及其化合物的情况。调查的工厂是从年铟产量超过 500 公斤的铟生产工厂中选择的。

方法

使用《控制物质危害健康(COSHH)要素控制带工具包》评估铟处理操作的一般风险,该工具包包含用于危险水平、日常使用量和“粉尘”特性的简单量表。将操作分为四种控制方法(CA)之一。

结果

有 35 项铟处理操作被归类为 CA4(需要专家建议),16 项归类为 CA3(需要遏制)。有 3 项操作被归类为 CA2(需要工程控制),只有 1 项归类为 CA1(需要良好的通用通风(GV)和工作实践)。在归类为 CA4 和 CA3 的 51 项操作中,有 36 项发现未配备适当的局部排气通风,其余 15 项仅依靠 GV 实践。参考《COSHH 要素》和日本技术指南,检查了 13 家铟厂使用的呼吸保护设备(RPE)。

结论

我们的研究结果表明,需要采取严格的工程控制措施和呼吸保护措施来改善铟处理操作。我们的结果表明,日本铟处理操作最常见的控制方法是需要专家建议,包括对呼吸系统疾病进行工人健康检查和通过空气采样进行暴露测量。