AI Article Synopsis
- Engineered stone (ES) is a widely used building material valued for its cost-effectiveness and design flexibility, but it poses significant health risks related to silicosis for workers involved in its production.
- In 2024, Australia became the first country to ban the use and importation of ES after 15 years of documented health issues linked to its fabrication.
- The literature review evaluates various factors contributing to ES-associated silicosis, including material composition, dust exposure, and health impacts, while offering recommendations for prevention based on product characteristics, exposure pathways, and host responses.
Article Abstract
Engineered stone (ES) is a popular building product, due to its architectural versatility and generally lower cost. However, the fabrication of organic resin-based ES kitchen benchtops from slabs has been associated with alarming rates of silicosis among workers. In 2024, fifteen years after the first reported ES-related cases in the world, Australia became the first country to ban the use and importation of ES. A range of interacting factors are relevant for ES-associated silicosis, including ES material composition, characteristics of dust exposure and lung cell-particle response. In turn, these are influenced by consumer demand, work practices, particle size and chemistry, dust control measures, industry regulation and worker-related characteristics. This literature review provides an evidence synthesis using a narrative approach, with the themes of product, exposure and host. Exposure pathways and pathogenesis are explored. Apart from crystalline silica content, consideration is given to non-siliceous ES components such as resins and metals that may modify chemical interactions and disease risk. Preventive effort can be aligned with each theme and associated evidence.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11203299 | PMC |
| http://dx.doi.org/10.3390/ijerph21060683 | DOI Listing |
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