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Microplastics-sorbed phenanthrene and its derivatives are highly bioaccessible and may induce human cancer risks
Graphical abstract Display Omitted
Highlights Sorption of PHE and PHE derivatives on MPs is associated with the textures of MPs. The sorption is also dependent on the hydrophobicities of PHE and PHE derivatives. Bioaccessibilities of MP-sorbed PHE and PHE derivatives reached 81.34%–98.72%. Bioaccessibility in gastric fluids was negatively correlated with hydrophobicity. MP-sorbed PHE and PHE derivatives might induce serious human cancer risks.
Abstract Microplastics (MPs) are ubiquitous in environmental media and human diets and can enrich organic contaminants, including polycyclic aromatic hydrocarbons (PAHs) and their derivatives. The bioaccessibilities and triggering cancer risks of MP-sorbed PAHs and PAH derivatives are closely linked with human health, which, however, were rarely focused on. This study explored the sorption behaviors of phenanthrene (PHE) and PHE derivatives on polyethylene (PE), polypropylene (PP), and polystyrene (PS) MPs, and assessed their bioaccessibilities in gastrointestinal fluids as well as their inducing human cancer risks. PE MPs harbored the highest sorption capacity, secondly the PP MPs, then the PS ones. Sorption of PHE and PHE derivatives on MPs was positively correlated with their hydrophobicities. The bioaccessibilities of sorbed PHE and PHE derivatives could reach 53.59 %±0.46 %-90.28 %±0.92 % in gastrointestinal fluids and 81.34 %±0.77 %-98.72 %±1.44 % in gastrointestinal fluids with the addition of Tenax (more close to the bioavailability). The hydrophobicities also controlled the bioaccessibilities of PHE and PHE derivatives in gastric fluids, and those in intestinal fluids with Tenax for PS MPs. The incremental lifetime cancer risk (ILCR) values for PHE, PHE-Cl, and PHE-NO2 on MPs at tested concentrations were all higher than the USEPA-suggested safety limit (10−6), and most of them were even higher than 10-4, which thus indicates serious cancer risks. This study promoted our understanding of the potential health threats posed by organic pollutant-bearing MPs in the environment.
Microplastics-sorbed phenanthrene and its derivatives are highly bioaccessible and may induce human cancer risks
Graphical abstract Display Omitted
Highlights Sorption of PHE and PHE derivatives on MPs is associated with the textures of MPs. The sorption is also dependent on the hydrophobicities of PHE and PHE derivatives. Bioaccessibilities of MP-sorbed PHE and PHE derivatives reached 81.34%–98.72%. Bioaccessibility in gastric fluids was negatively correlated with hydrophobicity. MP-sorbed PHE and PHE derivatives might induce serious human cancer risks.
Abstract Microplastics (MPs) are ubiquitous in environmental media and human diets and can enrich organic contaminants, including polycyclic aromatic hydrocarbons (PAHs) and their derivatives. The bioaccessibilities and triggering cancer risks of MP-sorbed PAHs and PAH derivatives are closely linked with human health, which, however, were rarely focused on. This study explored the sorption behaviors of phenanthrene (PHE) and PHE derivatives on polyethylene (PE), polypropylene (PP), and polystyrene (PS) MPs, and assessed their bioaccessibilities in gastrointestinal fluids as well as their inducing human cancer risks. PE MPs harbored the highest sorption capacity, secondly the PP MPs, then the PS ones. Sorption of PHE and PHE derivatives on MPs was positively correlated with their hydrophobicities. The bioaccessibilities of sorbed PHE and PHE derivatives could reach 53.59 %±0.46 %-90.28 %±0.92 % in gastrointestinal fluids and 81.34 %±0.77 %-98.72 %±1.44 % in gastrointestinal fluids with the addition of Tenax (more close to the bioavailability). The hydrophobicities also controlled the bioaccessibilities of PHE and PHE derivatives in gastric fluids, and those in intestinal fluids with Tenax for PS MPs. The incremental lifetime cancer risk (ILCR) values for PHE, PHE-Cl, and PHE-NO2 on MPs at tested concentrations were all higher than the USEPA-suggested safety limit (10−6), and most of them were even higher than 10-4, which thus indicates serious cancer risks. This study promoted our understanding of the potential health threats posed by organic pollutant-bearing MPs in the environment.
Microplastics-sorbed phenanthrene and its derivatives are highly bioaccessible and may induce human cancer risks
Hu, Xiaojie (author) / Yu, Qing (author) / Gatheru Waigi, Michael (author) / Ling, Wanting (author) / Qin, Chao (author) / Wang, Jian (author) / Gao, Yanzheng (author)
2022-08-04
Article (Journal)
Electronic Resource
English
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