会议论文详细信息
5th Nanosafe International Conference on Health and Safety issues related to nanomaterials for a socially responsible approach
Nanomaterials, and Occupational Health and Safety—A Literature Review About Control Banding and a Semi-Quantitative Method Proposed for Hazard Assessment.
物理学;医药卫生;材料科学
Dimou, Kaotar^1 ; Emond, Claude^1,2
Department of Environmental and Occupational Health, University of Montreal School of Public Health (ESPUM, École de Santé Publique de l'Université de Montréal), C.P. 6128, Succ. Centreville, Montreal
QC, Canada^1
BioSimulation Consulting Inc., 2915 Ogletown Road, Newark
DE
19713, United States^2
关键词: Engineered nanomaterials;    Hazard assessment methodologies;    Nanotechnology products;    Occupational Exposure Limits;    Occupational health and safety;    Pharmaceutical industry;    Quantitative risk assessment method;    Systematic literature review;   
Others  :  https://iopscience.iop.org/article/10.1088/1742-6596/838/1/012020/pdf
DOI  :  10.1088/1742-6596/838/1/012020
来源: IOP
PDF
【 摘 要 】

In recent decades, the control banding (CB) approach has been recognised as a hazard assessment methodology because of its increased importance in the occupational safety, health and hygiene (OSHH) industry. According to the American Industrial Hygiene Association, this approach originates from the pharmaceutical industry in the United Kingdom. The aim of the CB approach is to protect more than 90% (or approximately 2.7 billion) of the world's workers who do not have access to OSHH professionals and traditional quantitative risk assessment methods. In other words, CB is a qualitative or semi-quantitative tool designed to prevent occupational accidents by controlling worker exposures to potentially hazardous chemicals in the absence of comprehensive toxicological and exposure data. These criteria correspond very precisely to the development and production of engineered nanomaterials (ENMs). Considering the significant lack of scientific knowledge about work-related health risks because of ENMs, CB is, in general, appropriate for these issues. Currently, CB can be adapted to the specificities of ENMs; hundreds of nanotechnology products containing ENMs are already on the market. In this context, this qualitative or semi-quantitative approach appears to be relevant for characterising and quantifying the degree of physico-chemical and biological reactivities of ENMs, leading towards better control of human health effects and the safe handling of ENMs in workplaces. The need to greater understand the CB approach is important to further manage the risks related to handling hazardous substances, such as ENMs, without established occupational exposure limits. In recent years, this topic has garnered much interest, including discussions in many technical papers. Several CB models have been developed, and many countries have created their own nano-specific CB instruments. The aims of this research were to perform a literature review about CBs, to classify the main approaches that were developed worldwide, and then to suggest an original methodology based on the characterisation of the hazard. For this research, our team conducted a systematic literature review over the past 20 years. This approach is important in understanding the conceptual basis for CB and the model's overall effectiveness. These considerations will lead to the proposal of an original hazard assessment method based on physico-chemical and biological characteristics. Such a method should help the entire industry better understand the ability of the CB approach to limit workers' exposure, while identifying the strengths and weaknesses of the approach. Developing this practice method will help to provide relevant recommendations to workers who handle hazardous chemicals such as ENMs and to the general population.

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