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Metal oxide nanoparticles and polycyclic aromatic hydrocarbons alter nanoplastic’s stability and toxicity to zebrafish

Journal of Hazardous Materials 2020 70 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 50 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Nisha Singh, Nisha Singh, Ekta Tiwari, Ekta Tiwari, Ekta Tiwari, Ekta Tiwari, Nisha Singh, Nisha Singh, Nisha Singh, Nisha Singh, Nisha Singh, Gopala Krishna Darbha Nisha Singh, Jacky Bhagat, Jacky Bhagat, Jacky Bhagat, Jacky Bhagat, Jacky Bhagat, Jacky Bhagat, Jacky Bhagat, Nisha Singh, Ekta Tiwari, Ekta Tiwari, Nisha Singh, Nisha Singh, Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Nisha Singh, Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Nisha Singh, Gopala Krishna Darbha Gopala Krishna Darbha Nisha Singh, Nitin Khandelwal, Nitin Khandelwal, Nitin Khandelwal, Nitin Khandelwal, Nitin Khandelwal, Jacky Bhagat, Jacky Bhagat, Nitin Khandelwal, Nitin Khandelwal, Ekta Tiwari, Gopala Krishna Darbha Ekta Tiwari, Ekta Tiwari, Ekta Tiwari, Gopala Krishna Darbha Gopala Krishna Darbha Nisha Singh, Nisha Singh, Gopala Krishna Darbha Gopala Krishna Darbha Nisha Singh, Nisha Singh, Nitin Khandelwal, Ekta Tiwari, Ekta Tiwari, Nitin Khandelwal, Ekta Tiwari, Nitin Khandelwal, Ekta Tiwari, Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Nisha Singh, Nisha Singh, Ekta Tiwari, Ekta Tiwari, Nitin Khandelwal, Nitin Khandelwal, Jacky Bhagat, Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Nitin Khandelwal, Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha S.K. Shyama, Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Nisha Singh, Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha Gopala Krishna Darbha

Summary

Researchers exposed zebrafish to polystyrene nanoplastics combined with metal oxide nanoparticles and PAHs, finding that metal oxides increased nanoplastic aggregation and DNA damage (with NP+nMOx combinations being most genotoxic), while PAHs reduced DNA damage — revealing opposing interaction effects on stability and toxicity.

Models

Zebrafish

Study Type In vivo

Co-occurrence of nanoplastics (NPs) with metal oxide nanoparticles (nMOx) and polycyclic aromatic hydrocarbons (PAHs) have been widely reported. However, there is a scarcity of information on their interactions and combined toxic effects. In this study, we used two different sized NPs [55 nm (NP1) and 100 nm (NP2)] to understand the effect of nMOx (nCuO and nZnO) and PAHs [chrysene (Chr) and fluoranthene (Flu)] on NPs' stability and toxicity to zebrafish. Results revealed that increasing the concentration of nMOx, zeta-potential increased, and charge reversal was observed in NPs suspension while PAH produced no major changes. Aggregation kinetics performed with nMOx exhibited higher aggregation of NPs in presence of NaCl that alleviated critical coagulation concentration. NP1 stabilized the size of otherwise unstable nMOx suspension in the tap-water for a longer period, whereas, aggregation was observed with NP2. The in vivo comet assay results showed that NP1 was more genotoxic than NP2 owing to their lower size. Interestingly the DNA damage was highest in NPs+nMOx followed by nMOx and NPs. Unlike nMOx, Chr/Flu+NPs showed reduced DNA damage as compared to NPs or PAH alone. Alteration in catalase activity and lipid peroxidation value indicated oxidative stress in all exposure groups.

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