Toward Product Safety and Circularity: Understanding the Information Structure of Global Databases on Chemicals in Products and Articles

• Authors: OLISAH Chijioke; MELYMUK Lisa Emily; VESTERGREN Robin; RUMAR Karin; WICKMAN Tonie; MELANDER Nina; TALASNIEMI Petteri; BRANDSMA Sicco; BOIJE af Gennas Urban; SCHERINGER Martin
• Year of publication: 2025
• Type: Article in Periodical
• Magazine / Source: ENVIRONMENTAL SCIENCE & TECHNOLOGY
• MU Faculty or unit: Faculty of Science
• web: https://pubs.acs.org/doi/10.1021/acs.est.4c07992
• Doi: http://dx.doi.org/10.1021/acs.est.4c07992
• Keywords: consumer products; REACH; compliance; regulations; enforcement

Attached files

• 2483634.pdf

• Description: Access to information about chemicals in products and articles is critical for supporting enforcement of chemical regulations, assessing risks from chemicals, allowing informed consumer choices, and enabling product circularity. In this work, we identified and evaluated available databases (DBs) on chemicals in products and articles from the literature using a defined protocol and from European national market surveillance authorities, nongovernmental agencies, and industrial sector groups using questionnaires. This is the first comprehensive review of DBs that provide information about chemicals in products and articles. A majority of these DBs are heterogeneous in terms of scope, ontologies, and data structures. Among the 57 identified DBs, 49 identified specific substances and only 30 reported their concentration in their products. In addition, 35 DBs included hazard information and 27 DBs provided safety information about products or chemicals. The analysis highlights the lack of comprehensive or accessible data on chemicals in products and articles for most categories of products/articles and jurisdictions. The limitations of existing DBs were attributed to scattered regulatory information requirements, a lack of data for unregulated substances, the complexity of supply chain communication, and confidentiality issues. In response to these challenges, we identified opportunities for improving existing information transfer structures and exploring alternative data sources to promote product and article safety and circularity.

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