期刊
JOURNAL OF HAZARDOUS MATERIALS
卷 437, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.jhazmat.2022.129167
关键词
Food contact materials; Health hazard; Carcinogenic; mutagenic; or toxic to reproduction (CMR); Endocrine disruption; Persistence; Regulation; EU Chemicals Strategy for Sustainability
资金
- Zero Waste Europe (ZWE)
The EU Chemicals Strategy for Sustainability aims to remove harmful chemicals from consumer products, including food contact materials. This strategy has the potential to significantly improve public health protection by banning the use of chemicals that are carcinogenic, mutagenic, toxic to reproduction, or persistent and bioaccumulative, or endocrine-disrupting chemicals in food contact materials. A systematic analysis of food contact chemicals revealed a list of 388 chemicals that should be phased-out, including CMRs and PFAS, with evidence of their presence in food contact materials. This study justifies a shift towards a hazard-based approach to regulating chemicals in food contact materials.
The EU Chemicals Strategy for Sustainability (CSS) aims at removing the most harmful chemicals from consumer products, including from food contact materials (FCMs). If implemented as intended, the CSS has the potential to significantly improve the protection of public health by banning the use of chemicals of concern that are carcinogenic, mutagenic, or toxic to reproduction (CMRs), or persistent and bioaccumulative, or endocrine -disrupting chemicals (EDCs) in FCMs. However, until now an overview of such food contact chemicals of concern (FCCoCs) has not been available, because the CSS is fairly recent. Therefore, we here systematically analyze the food contact chemicals listed for intentional use in FCMs and identify known FCCoCs. We present a list of 388 FCCoCs that should be phased-out from use. Of these, 352 are CMRs, four are per-and polyfluoroalkyl substances (PFAS), and 127 have empirical evidence for presence in FCMs. Importantly, 30 FCCoCs with evi-dence for presence are monomers of which 22 have evidence for migration into foodstuff showing that monomers in FCMs indeed become relevant for human exposure. Our findings justify moving away from a risk-towards a hazard-based approach to regulation of chemicals in FCMs.
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