A new source of representative secondary PET nanoplastics. Obtention, characterization, and hazard evaluation
Journal of Hazardous Materials2022
79 citations
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Score: 55
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Mohamed Alaraby,
Mohamed Alaraby,
Aliro Villacorta
Mohamed Alaraby,
Laura Rubio,
Mohamed Alaraby,
Mohamed Alaraby,
Mohamed Alaraby,
Mohamed Alaraby,
Mohamed Alaraby,
Mohamed Alaraby,
Aliro Villacorta
Aliro Villacorta
Ricard Marcos,
Aliro Villacorta
Aliro Villacorta
Laura Rubio,
Ricard Marcos,
Aliro Villacorta
Montserrat López‐Mesas,
Aliro Villacorta
Aliro Villacorta
Aliro Villacorta
Ricard Marcos,
Aliro Villacorta
Alba Hernández,
Alba Hernández,
Alba Hernández,
Mohamed Alaraby,
Aliro Villacorta
Aliro Villacorta
Aliro Villacorta
Aliro Villacorta
Aliro Villacorta
Aliro Villacorta
Victor Fuentes-Cebrian,
Aliro Villacorta
Laura Rubio,
Montserrat López‐Mesas,
Alba Hernández,
Ricard Marcos,
Victor Fuentes-Cebrian,
Laura Rubio,
Aliro Villacorta
Laura Rubio,
Mohamed Alaraby,
Laura Rubio,
Aliro Villacorta
Aliro Villacorta
Alba Hernández,
Alba Hernández,
Aliro Villacorta
Mohamed Alaraby,
Mohamed Alaraby,
Mohamed Alaraby,
Mohamed Alaraby,
Ricard Marcos,
Ricard Marcos,
Alba Hernández,
Laura Rubio,
Alba Hernández,
Alba Hernández,
Aliro Villacorta
Laura Rubio,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Victor Fuentes-Cebrian,
Montserrat López‐Mesas,
Montserrat López‐Mesas,
Montserrat López‐Mesas,
Ricard Marcos,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Ricard Marcos,
Alba Hernández,
Mohamed Alaraby,
Mohamed Alaraby,
Mohamed Alaraby,
Mohamed Alaraby,
Mohamed Alaraby,
Mohamed Alaraby,
Ricard Marcos,
Ricard Marcos,
Alba Hernández,
Ricard Marcos,
Ricard Marcos,
Ricard Marcos,
Montserrat López‐Mesas,
Mohamed Alaraby,
Ricard Marcos,
Ricard Marcos,
Victor Fuentes-Cebrian,
Ricard Marcos,
Alba Hernández,
Ricard Marcos,
Alba Hernández,
Aliro Villacorta
Alba Hernández,
Aliro Villacorta
Laura Rubio,
Ricard Marcos,
Ricard Marcos,
Alba Hernández,
Ricard Marcos,
Alba Hernández,
Ricard Marcos,
Ricard Marcos,
Ricard Marcos,
Ricard Marcos,
Oscar H. Moriones,
Alba Hernández,
Laura Rubio,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Mohamed Alaraby,
Ricard Marcos,
Ricard Marcos,
Ricard Marcos,
Ricard Marcos,
Aliro Villacorta
Ricard Marcos,
Alba Hernández,
Laura Rubio,
Ricard Marcos,
Alba Hernández,
Ricard Marcos,
Ricard Marcos,
Laura Rubio,
Ricard Marcos,
Ricard Marcos,
Ricard Marcos,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Ricard Marcos,
Ricard Marcos,
Alba Hernández,
Ricard Marcos,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Ricard Marcos,
Ricard Marcos,
Ricard Marcos,
Alba Hernández,
Alba Hernández,
Ricard Marcos,
Alba Hernández,
Laura Rubio,
Ricard Marcos,
Ricard Marcos,
Laura Rubio,
Laura Rubio,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Alba Hernández,
Ricard Marcos,
Ricard Marcos,
Alba Hernández,
Montserrat López‐Mesas,
Alba Hernández,
Aliro Villacorta
Summary
Researchers developed a method to produce representative PET nanoplastics from water bottles using diamond burrs to avoid metal contamination. While the resulting nanoplastics were taken up by cells in laboratory tests, they did not induce significant cytotoxicity, oxidative stress, or DNA damage at the concentrations tested, though the authors note that more research with environmentally representative samples is needed.
Micro and nanoplastics (MNPLs) are emergent environmental pollutants requiring urgent information on their potential risks to human health. One of the problems associated with the evaluation of their undesirable effects is the lack of representative samples, matching those resulting from the environmental degradation of plastic wastes. To such end, we propose an easy method to obtain polyethylene terephthalate nanoplastics from water plastic bottles (PET-NPLs) but, in principle, applicable to any other plastic goods sources. An extensive characterization indicates that the proposed process produces uniform samples of PET-NPLs of around 100 nm, as determined by using AF4 and multi-angle and dynamic light scattering methodologies. An important point to be highlighted is that to avoid the metal contamination resulting from methods using metal blades/burrs for milling, trituration, or sanding, we propose to use diamond burrs to produce metal-free samples. To visualize the toxicological profile of the produced PET-NPLs we have evaluated their ability to be internalized by cells, their cytotoxicity, their ability to induce oxidative stress, and induce DNA damage. In this preliminary approach, we have detected their cellular uptake, but without the induction of significant biological effects. Thus, no relevant increases in toxicity, reactive oxygen species (ROS) induction, or DNA damage -as detected with the comet assay- have been observed. The use of representative samples, as produced in this study, will generate relevant data in the discussion about the potential health risks associated with MNPLs exposures.