Toxicity testing of nonwovens used for production of respiratory protective equipment.

IF 1.1 4区医学 Q4 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH Central European journal of public health Pub Date : 2023-03-01 DOI:10.21101/cejph.a7429

Hana Kubátová, Petra Roupcová, Karel Klouda, Kateřina Bátrlová

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Abstract

Objectives: During the covid-19 pandemic, protective equipment such as respirators and masks were widely used to protect respiratory tract. This disposable protective equipment is usually made from plastic fibre-based nonwoven fabrics. If used masks and respirators are improperly discarded, they pollute the environment by becoming a source of micro and nanoplastics. The aim of the study was to find out how stable the materials of protective equipment are and how released nano and microplastics can affect aquatic and soil organisms.

Materials: The input materials used to produce respirators and masks were tested for their thermal stability and resistance to the release of plastic particles into the environment. To determine the thermal stability of the materials, a simultaneous thermal analysis - thermogravimetry (TGA) and differential scanning calorimetry (DSC) were performed.

Results: Materials of masks and respirators are stable at temperatures common to temperate climate zone. However, the possible effects of chemical reactions of the materials with the environment were not considered during the measurement. The materials were also subjected to ecotoxicity tests according to European standards.

Conclusion: While the leachate obtained by shaking the materials in water did not show acute toxicity to the selected aquatic organisms, the material itself had a significant effect on selected soil organisms (springtails).

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生产呼吸防护设备用非织造布的毒性试验。

目的:新型冠状病毒病疫情期间，呼吸器、口罩等防护用品被广泛应用于呼吸道防护。这种一次性防护装备通常由基于塑料纤维的非织造布制成。如果使用过的口罩和呼吸器被不当丢弃，它们会成为微塑料和纳米塑料的来源，从而污染环境。这项研究的目的是找出防护装备材料的稳定性，以及释放的纳米和微塑料如何影响水生和土壤生物。材料:用于生产呼吸器和口罩的输入材料进行了热稳定性和抗塑料颗粒释放到环境中的测试。为了确定材料的热稳定性，同时进行了热分析-热重法(TGA)和差示扫描量热法(DSC)。结果:口罩和呼吸器的材料在温带气候温度下是稳定的。然而，在测量过程中没有考虑材料与环境的化学反应可能产生的影响。这些材料还按照欧洲标准进行了生态毒性测试。结论:在水中振荡所得的渗滤液对选定的水生生物不表现出急性毒性，但材料本身对选定的土壤生物(弹跳虫)有显著的影响。

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来源期刊

Central European journal of public health PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH-

CiteScore

1.90

自引率

0.00%

发文量

期刊介绍： The Journal publishes original articles on disease prevention and health protection, environmental impacts on health, the role of nutrition in health promotion, results of population health studies and critiques of specific health issues including intervention measures such as vaccination and its effectiveness. The review articles are targeted at providing up-to-date information in the sphere of public health. The Journal is geographically targeted at the European region but will accept specialised articles from foreign sources that contribute to public health issues also applicable to the European cultural milieu.