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20 resultsShowing papers similar to Maternal exposure to polystyrene nanoplastics causes brain abnormalities in progeny
ClearMaternal exposure to polystyrene nanoplastics impacts developmental milestones and brain structure in mouse offspring
Researchers exposed pregnant mice to polystyrene nanoplastics and studied the effects on their offspring's brain development. The study found that maternal nanoplastic exposure affected developmental milestones and brain structure in the young mice. The findings suggest that nanoplastic exposure during pregnancy may pose risks to fetal brain development, though more research is needed to understand the implications for humans.
Maternal exposure to polystyrene nanoplastics causes brain abnormalities in progeny
Researchers found that maternal exposure to polystyrene nanoplastics caused brain abnormalities in offspring, demonstrating that nanoplastics can cross maternal barriers and affect neurological development in progeny with implications for developmental toxicology.
Teratological, neurochemical and histomorphic changes in the limbic areas of F1 mice progeny due to co-parental polystyrene nanoplastic exposure
Researchers exposed parent mice to polystyrene nanoplastics before and during pregnancy and found that offspring exhibited skeletal and visceral malformations, impaired neonatal reflexes, learning deficits, and structural brain changes — including reduced hippocampal neurons — demonstrating transgenerational neurodevelopmental harm from nanoplastic exposure.
Effects of nanoplastic exposure during pregnancy and lactation on neurodevelopment of rat offspring
When pregnant and nursing rats were exposed to polystyrene nanoplastics, their offspring showed thinner brain cortexes, disrupted neurotransmitter levels, damaged connections between brain cells, and problems with anxiety and spatial memory. This study suggests that maternal exposure to nanoplastics during pregnancy and breastfeeding could affect brain development in offspring.
Maternal exposure to polystyrene nanoplastics leads to ovotoxicity in female mouse offspring
Researchers exposed pregnant mice to polystyrene nanoplastics throughout mating, pregnancy, and nursing, then examined the ovaries of their female offspring. They found that maternal nanoplastic exposure significantly reduced ovarian weight and follicle numbers in the offspring and lowered the expression of key antioxidant genes. The study suggests that nanoplastic exposure during pregnancy may pose risks to the reproductive development of female offspring.
Maternal exposure to polystyrene nanoplastics during gestation and lactation caused fertility decline in female mouse offspring
When pregnant mice were exposed to nanoplastics during pregnancy and nursing, their female offspring had significantly reduced fertility as adults. The nanoplastics caused premature activation of egg cells in the ovaries and damaged crucial connections between eggs and their supporting cells. This raises concerns that a mother's exposure to nanoplastics could have lasting effects on her daughters' ability to have children.
Molecular effects of polystyrene nanoplastics on human neural stem cells
Researchers exposed human brain stem cells to tiny polystyrene nanoplastics and found they caused oxidative stress, DNA damage, inflammation, and cell death. These findings suggest that nanoplastics could potentially harm brain development if they reach neural tissue, though more research is needed to understand real-world exposure levels.
Maternal exposure to polystyrene nanoplastics alters fetal brain metabolism in mice
When pregnant mice drank water containing polystyrene nanoplastics at low concentrations, their unborn pups showed significant changes in brain chemistry, including a 40% drop in GABA (a key brain chemical) and a 30% drop in glucose levels. These metabolic disruptions in the fetal brain could help explain the structural brain changes previously seen in pups born to nanoplastic-exposed mothers. This study raises concerns that nanoplastic exposure during pregnancy could affect fetal brain development in humans.
Maternal exposure to polystyrene microplastics impairs social behavior in mouse offspring with a potential neurotoxicity
When pregnant mice were exposed to polystyrene microplastics, their offspring showed impaired social behavior even though the plastics did not reach the brain directly. The microplastics accumulated in the mothers' digestive organs and caused changes in brain cell growth and survival in isolated neurons. This study suggests that microplastic exposure during pregnancy could affect brain development and social behavior in offspring through indirect mechanisms.
Exposure to polystyrene nanoplastics impairs sperm metabolism and pre-implantation embryo development in mice
This study found that male mice given polystyrene nanoplastics by mouth showed significant harm to sperm function and early embryo development, with changes in gene expression that could affect offspring. The findings raise concerns that nanoplastic exposure could impair male fertility and potentially pass harmful effects to the next generation.
Maternal exposure to polystyrene nanoplastics induces sex-specific cardiotoxicity in offspring mice
When pregnant mice were exposed to polystyrene nanoplastics, their offspring developed heart damage that differed between males and females. Female offspring lost more body and heart weight, while males showed signs of atherosclerosis and females showed viral heart inflammation markers. This study suggests that prenatal nanoplastic exposure could program sex-specific cardiovascular problems in children, raising concerns about plastic exposure during pregnancy.
Intergenerational neurotoxicity of polystyrene nanoplastics in offspring mice is mediated by dysfunctional microbe-gut-brain axis
Researchers found that mother mice exposed to polystyrene nanoplastics during pregnancy and nursing passed neurological harm to their offspring, with the babies showing brain inflammation, disrupted dopamine and serotonin signaling, and gut microbiome imbalances — suggesting that nanoplastic exposure before birth can damage the developing brain through the gut-brain connection.
Maternal exposure to polystyrene nanoparticles retarded fetal growth and triggered metabolic disorders of placenta and fetus in mice
Researchers exposed pregnant mice to polystyrene nanoplastics through drinking water and found that higher concentrations led to significantly reduced fetal weight. The nanoplastics caused abnormal cell structures in the placenta and disrupted metabolic processes in both placental tissue and fetal livers. The study suggests that maternal nanoplastic exposure during pregnancy can cross the placental barrier and interfere with normal fetal growth and metabolism.
Maternal exposure to polystyrene nanoplastics during gestation and lactation induces hepatic and testicular toxicity in male mouse offspring
Researchers exposed pregnant and nursing mice to polystyrene nanoplastics and studied the effects on their male offspring. The offspring showed reduced body weight, liver damage with inflammation and disrupted sugar metabolism, and testicular harm including decreased sperm counts. The findings suggest that nanoplastic exposure during pregnancy and breastfeeding can cause significant organ damage in the next generation.
Effects of polystyrene nanoplastic gestational exposure on mice
Researchers exposed pregnant mice to airborne polystyrene nanoplastics and studied the effects on both mothers and offspring. High-dose exposure caused fatty liver disease in the mothers and in adult female offspring, but not in male offspring, with each group showing different underlying molecular mechanisms. The study suggests that prenatal exposure to airborne nanoplastics may have sex-specific effects on metabolic health that persist into adulthood.
Neonatal Exposure to Polystyrene Nanoplastics Impairs Microglia-Mediated Synaptic Pruning and Causes Social Behavioral Defects in Adulthood
Newborn mice exposed to polystyrene nanoplastics showed disrupted brain development that led to social behavior problems lasting into adulthood. The nanoplastics impaired microglia -- the brain's immune cells -- preventing them from properly pruning unnecessary connections between nerve cells during a critical window of early development. This raises concerns about nanoplastic exposure from baby bottles and other infant products.
Maternal polystyrene nanoplastics exposure during pregnancy induces obesity development in adult offspring through disrupting lipid homeostasis
Researchers found that maternal inhalation exposure to polystyrene nanoplastics during pregnancy induced obesity development in adult offspring of mice, suggesting in utero exposure to airborne nanoplastics programs metabolic dysfunction. The study linked prenatal nanoplastic exposure to increased adiposity and metabolic changes persisting into adulthood.
Effects of exposure to micro/nanoplastics of polystyrene on neuronal oxidative stress, neuroinflammation, and anxiety-like behavior in mice: A Systematic Review
This systematic review examined 24 studies on how polystyrene microplastics and nanoplastics affect the brains of mice. The findings consistently showed that exposure led to increased oxidative stress, brain inflammation, and anxiety-like behavior. Maternal exposure also caused brain-related harm in offspring, suggesting these tiny plastic particles could pose real risks to the nervous system.
Polystyrene micro- and nanoplastics cause placental dysfunction in mice
Pregnant mice exposed to polystyrene micro- and nanoplastics in drinking water showed signs of placental dysfunction, with nanoplastics causing more severe effects than microplastics. Both sizes triggered a brain-sparing response in fetuses, where blood flow is redirected to protect the brain from low oxygen, a sign of fetal distress. These findings suggest that nanoplastic exposure during pregnancy could disrupt normal placental function and potentially affect fetal brain development.
Perinatal exposure to polystyrene nanoplastics alters socioemotional behaviors via the microbiota–gut–brain axis in adult offspring mice
Researchers exposed mice to polystyrene nanoplastics during the perinatal period and found that the offspring developed depression-like behaviors, reduced social interactions, and diminished social dominance as adults. The nanoplastics caused structural damage to hippocampal neurons and disrupted gut microbiota composition, particularly in male offspring. The study suggests that early-life nanoplastic exposure may affect brain development and behavior through the microbiota-gut-brain axis.