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Effects of nanoplastics on zebrafish embryo-larval stages: A case study with polystyrene (PS) and polymethylmethacrylate (PMMA) particles

Environmental Research 2022 53 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 55 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Miguel Oliveira Pedro Manuel, Pedro Manuel, Pedro Manuel, Miguel Oliveira Mónica Almeida, Miguel Oliveira Miguel Oliveira Miguel Oliveira Miguel Oliveira Miguel Oliveira Mónica Almeida, Miguel Oliveira Miguel Oliveira Miguel Oliveira Miguel Oliveira Miguel Oliveira Miguel Oliveira Miguel Oliveira Miguel Oliveira Mónica Almeida, Mónica Almeida, Miguel Oliveira Manuel A. Martins, Miguel Oliveira Mónica Almeida, Miguel Oliveira Mónica Almeida, Mónica Almeida, Miguel Oliveira Miguel Oliveira Miguel Oliveira Miguel Oliveira Miguel Oliveira Miguel Oliveira Mónica Almeida, Mónica Almeida, Manuel A. Martins, Manuel A. Martins, Manuel A. Martins, Manuel A. Martins, Manuel A. Martins, Manuel A. Martins, Miguel Oliveira Manuel A. Martins, Miguel Oliveira Miguel Oliveira Manuel A. Martins, Miguel Oliveira Manuel A. Martins, Manuel A. Martins, Miguel Oliveira Manuel A. Martins, Miguel Oliveira Mónica Almeida, Manuel A. Martins, Miguel Oliveira Mónica Almeida, Miguel Oliveira Mónica Almeida, Miguel Oliveira Miguel Oliveira Miguel Oliveira Miguel Oliveira Miguel Oliveira Miguel Oliveira Mónica Almeida, Mónica Almeida, Manuel A. Martins, Manuel A. Martins, Manuel A. Martins, Manuel A. Martins, Miguel Oliveira Miguel Oliveira Miguel Oliveira Manuel A. Martins, Miguel Oliveira Miguel Oliveira Miguel Oliveira Miguel Oliveira Manuel A. Martins, Miguel Oliveira Miguel Oliveira Miguel Oliveira Miguel Oliveira Miguel Oliveira Miguel Oliveira Miguel Oliveira Miguel Oliveira Miguel Oliveira Miguel Oliveira

Summary

Researchers assessed the effects of polystyrene and polymethylmethacrylate nanoparticles on zebrafish embryos and larvae over 96 hours. The study found that these nanoplastics affected biochemical endpoints related to neurotransmission, antioxidant status, oxidative damage, and energy metabolism, with effects varying by plastic type. Evidence suggests that smaller plastic particles may have increased bioavailability and reactivity compared to larger fragments.

Polymers

PMMA PS

Body Systems

Nervous

Models

Zebrafish

Plastic production has been rising consistently in the last 30 years and with it, the presence of plastic particles in the environment. A decrease in size often increases the bioavailability and reactivity of the particles. In this study the impact of polystyrene (PS; 22 nm) and polymethylmethacrylate (PMMA; 32 nm) nanoparticles on zebrafish embryo-larval stages was assessed by studying mortality, hatching, morphological features, and biochemical endpoints (associated with neurotransmission, antioxidant status and oxidative damage, and energy metabolism) after 96 h exposure, and swimming behavior after 120 h exposure. Organisms exposed to PMMA nanoparticles exhibited higher mortality and pericardial edema than those exposed to PS nanoparticles but displayed less effects on swimming behavior. Biochemical endpoints were altered to a higher degree in organisms exposed to PS nanoparticles (acetylcholinesterase, glutathione S-transferase and catalase activities) but higher peroxidative damage was found after exposure to lower concentrations of PMMA nanoparticles. Both types of nanoparticles affected energy metabolism with higher levels of glycogen found in animals exposed to PS nanoparticles. The use of integrated biomarker response index confirmed that PS nanoparticles had a higher impact on biochemical endpoints of zebrafish.

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