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61,005 resultsShowing papers similar to Genotoxic and Oxidative Damage of Environmental Pollutant Microplastics on Zebrafish (Danio rerio)
ClearToxicity evaluation of the combination of emerging pollutants with polyethylene microplastics in zebrafish: Perspective study of genotoxicity, mutagenicity, and redox unbalance
Researchers exposed adult zebrafish to polyethylene microplastics combined with a mixture of common water pollutants for 15 days and assessed DNA damage, mutation rates, and oxidative stress. They found that microplastics alone caused DNA damage and nuclear abnormalities as severe as those caused by the pollutant mixture, challenging the assumption that microplastics are less harmful than chemical contaminants. The study revealed that the fish's antioxidant defenses were overwhelmed across multiple organs, suggesting widespread oxidative damage from microplastic exposure.
Toxic effects of naturally-aged microplastics on zebrafish juveniles: A more realistic approach to plastic pollution in freshwater ecosystems
Researchers exposed juvenile zebrafish to naturally aged polystyrene microplastics at environmentally relevant concentrations for five days. They found that the microplastics disrupted the fish's antioxidant defenses, indicating oxidative stress, and caused measurable cellular and neurological impacts. The study suggests that even short-term exposure to realistic levels of weathered microplastics can affect the health of freshwater organisms.
Polystyrene Nanoplastic Exposure Induces Developmental Toxicity by Activating the Oxidative Stress Response and Base Excision Repair Pathway in Zebrafish (Danio rerio)
Researchers exposed zebrafish embryos to polystyrene nanoplastics at various concentrations and found significant developmental abnormalities including reduced hatching rates and increased malformations. The nanoplastics activated oxidative stress responses and DNA repair pathways, indicating cellular damage during critical early development stages. The study provides mechanistic evidence for how nanoplastic exposure can disrupt normal embryonic development in aquatic organisms.
Assessing the impact of dietary polystyrene nanoplastics on growth performance, immunological parameters, and antioxidant defense in zebrafish (Danio rerio)
Researchers fed zebrafish diets containing different concentrations of polystyrene nanoplastics for 30 days and observed reduced growth and increased stress markers at higher doses. The study found that nanoplastic exposure triggered oxidative stress, elevated cortisol levels, and altered immune-related gene expression, suggesting potential health impacts on fish from dietary nanoplastic intake.
Effects of polystyrene nano- and microplastics and of microplastics with sorbed polycyclic aromatic hydrocarbons in adult zebrafish
Researchers exposed adult zebrafish to nano- and microplastic particles of different sizes, some carrying additional chemical pollutants, over a 21-day period. The study found that nanoplastics and microplastics triggered different stress responses in the fish, with nanoplastics altering antioxidant gene activity and microplastics causing liver changes. The findings suggest that particle size matters when it comes to the biological effects of plastic pollution in aquatic organisms.
Exposure to polystyrene microplastics induced gene modulated biological responses in zebrafish (Danio rerio)
Researchers exposed zebrafish to polystyrene microplastics and analyzed changes in gene expression related to immune response, oxidative stress, and endocrine function. They found that microplastic exposure modulated genes involved in inflammation and detoxification pathways, indicating biological stress at the molecular level. The study provides evidence that microplastics can trigger gene-level disruptions in fish even before visible physical symptoms appear.
Revealing the hidden threats: Genotoxic effects of microplastics on freshwater fish
Researchers exposed a common freshwater fish to microplastics and found evidence of DNA damage in blood cells, along with changes in liver function and oxidative stress markers. The study took a comprehensive approach, measuring effects from the molecular level up to whole-organism responses. These genotoxic effects (damage to genetic material) in fish raise questions about whether chronic microplastic exposure could pose similar risks to other organisms, including humans.
Exposure to polystyrene microplastics impairs gonads of zebrafish (Danio rerio)
Researchers exposed zebrafish to polystyrene microplastics for 21 days and examined the effects on their reproductive organs. At higher concentrations, the microplastics caused elevated oxidative stress in the liver and gonads, and triggered cell death pathways in male testes along with thinning of testicular tissue. The study suggests that microplastic exposure can damage fish reproductive organs through oxidative stress and programmed cell death mechanisms.
Study of the effects of nanoplastics ingestion in a freshwater fish ( Danio rerio )
Researchers exposed zebrafish to polystyrene nanoplastics and found evidence of intestinal damage, oxidative stress, and behavioral changes. The study adds to growing evidence that nanoplastics in freshwater environments can harm fish health, with potential implications for the health of ecosystems and fish-eating humans.
Polyethylene microplastic exposure and concurrent effect with Aeromonas hydrophila infection on zebrafish
Researchers found that polyethylene microplastic exposure in zebrafish caused oxidative stress, altered antioxidant enzyme activity, and induced intestinal damage, with concurrent Aeromonas hydrophila infection amplifying these toxic effects and increasing mortality rates.
Embryotoxicity of polystyrene microplastics in zebrafish Danio rerio
Researchers exposed zebrafish embryos to polystyrene microplastics during early development and observed serious physical deformities, particularly in the spine, tail, and eyes, despite no increase in mortality. The exposed larvae also showed elevated expression of genes involved in oxidative stress defense and cellular detoxification. The findings suggest that microplastics can disrupt critical developmental stages in freshwater fish even when they do not directly cause death.
Biochemical, Genotoxic and Histological Implications of Polypropylene Microplastics on Freshwater Fish Oreochromis mossambicus: An Aquatic Eco-Toxicological Assessment
Researchers fed polypropylene microplastics to freshwater tilapia and found they caused oxidative stress, DNA damage, and liver tissue deterioration, with more severe effects after 14 days compared to acute 96-hour exposure. The microplastics disrupted antioxidant enzyme systems and neurotransmitter activity in the fish. The study demonstrates that prolonged microplastic ingestion poses a significant ecological threat to freshwater fish species.
Toxic effect of chronic exposure to polyethylene nano/microplastics on oxidative stress, neurotoxicity and gut microbiota of adult zebrafish (Danio rerio)
Researchers exposed adult zebrafish to polyethylene microplastics and nanoplastics for 21 days and found both caused oxidative damage to organs, disrupted brain function, and altered gut bacteria. Surprisingly, the toxic effects of microplastics and nanoplastics were similar in terms of brain and gut impacts, though organ-level oxidative damage varied by tissue type. These findings are concerning because they show that the plastic particles commonly found in food and water can simultaneously harm the brain, gut, and vital organs.
Antioxidants and molecular damage in Nile Tilapia (Oreochromis niloticus) after exposure to microplastics
Researchers exposed juvenile Nile Tilapia to different concentrations of microplastics for 15 days followed by a recovery period. The study found dose-dependent increases in oxidative stress markers, DNA fragmentation, and altered protein patterns in fish exposed to microplastics. Evidence indicates that while fish exposed to the lowest concentration recovered after the treatment ended, higher doses caused more persistent damage.
Adverse effects polystyrene microplastics exert on zebrafish heart – Molecular to individual level
Researchers fed zebrafish microplastic-enriched food for 21 days and found significant damage to heart function, including reduced contraction strength and frequency, along with decreased swimming ability. At the cellular level, the fish showed increased oxidative stress, DNA damage, and disrupted energy metabolism in heart tissue. The study provides evidence that microplastic exposure can affect cardiovascular health in fish from the molecular level up to whole-organism fitness.
Toxicity and Functional Tissue Responses of Two Freshwater Fish after Exposure to Polystyrene Microplastics
Researchers exposed zebrafish and perch to polystyrene microplastics for 21 days and assessed tissue-level damage using a battery of biomarkers. They found that the microplastics caused oxidative stress, DNA damage, and activated cell death pathways in both gill and liver tissues. The study suggests that gills are more sensitive to microplastic exposure than liver tissue for most measured parameters, with DNA damage being the most responsive biomarker overall.
Toxicological effects of microplastics and phenanthrene to zebrafish (Danio rerio)
Researchers exposed zebrafish to polystyrene microplastics, the pollutant phenanthrene, and a combination of both to assess their toxicity over 24 days. They found that co-exposure amplified oxidative stress, suppressed immune gene expression, and significantly disrupted the gut microbiome compared to either contaminant alone. The study suggests that microplastics can worsen the toxic effects of organic pollutants in aquatic organisms by altering how chemicals accumulate and interact in the body.
Exposure to microplastics decreases swimming competence in larval zebrafish (Danio rerio)
Researchers exposed zebrafish embryos and larvae to polystyrene microplastics and found that the particles adhered to egg surfaces before being ingested into the stomach and intestines after hatching. At higher concentrations, exposed larvae showed significantly reduced swimming distance and speed, along with upregulated genes related to inflammation and oxidative stress. The study suggests that microplastic exposure can impair swimming ability in larval fish, which could have broader ecological consequences for population fitness.
Integrated Biomarker, Histopathological and Genotoxicity‐Based Toxicological Evaluation of Polystyrene and Polyethylene Microplastics in Oreochromis mossambicus
Researchers exposed Mozambique tilapia to polystyrene and polyethylene microplastics and found dose-dependent accumulation in gill, gut, and liver tissues. Polyethylene proved significantly more toxic, causing greater oxidative stress, metabolic disruption, and chromosomal damage as measured by micronucleus assays. The study provides evidence that different polymer types can have markedly different toxicological impacts on freshwater fish.
Effects of chronic exposure of naturally weathered microplastics on oxidative stress level, behaviour, and mitochondrial function of adult zebrafish (Danio rerio)
Researchers exposed adult zebrafish to naturally weathered microplastics for 21 days and assessed behavioral changes, oxidative stress, and mitochondrial function. The study found that weathered microplastics induced anxiety-like behavior, elevated oxidative stress markers, and disrupted mitochondrial function, suggesting that real-world weathered microplastics may pose different biological risks than pristine laboratory particles.
Effects of Polystyrene Microplastic Exposure on Liver Cell Damage, Oxidative Stress, and Gene Expression in Juvenile Crucian Carp (Carassius auratus)
Researchers exposed young crucian carp to polystyrene microplastics at different concentrations and found dose-dependent liver damage, with higher concentrations causing more severe tissue injury and weaker antioxidant defenses. The microplastics disrupted genes involved in detoxification and stress response in liver cells. Since crucian carp is a commonly consumed freshwater fish, these findings raise questions about whether microplastic-contaminated fish could affect the health of people who eat them.
Dose-Dependent Cytotoxicity of Polypropylene Microplastics (PP-MPs) in Two Freshwater Fishes
Researchers fed zebrafish and freshwater perch polypropylene microplastics at low and high doses and measured cellular damage in liver and gill tissues. They found dose-dependent toxicity including DNA damage up to 18-fold higher than controls, lipid peroxidation, and disrupted metabolism of key compounds like tryptophan. The study provides evidence that polypropylene microplastic ingestion causes significant cellular harm to freshwater fish in a dose-dependent manner.
Eco-toxicity assessment of polypropylene microplastics in juvenile zebrafish (Danio rerio)
This study exposed young zebrafish to polypropylene microplastics for 28 days and found that the particles built up in their digestive tracts, causing oxidative stress, liver damage, and blood cell death. The damage increased with higher microplastic concentrations, and brain function was also affected through changes in a key neurotransmitter enzyme. These findings suggest that even common plastics like polypropylene can cause significant organ damage when ingested over time.
Acute toxic effects of polyethylene microplastic on adult zebrafish
Researchers exposed adult zebrafish to polyethylene microplastics of various sizes to identify physical effects, behavioral changes, and gene expression impacts. They found that microplastic ingestion varied by particle size and that exposure altered expression of detoxification and reproduction-related genes. The study suggests that microplastic pollution at environmentally relevant concentrations could affect both the health and reproductive capacity of fish.