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61,005 resultsShowing papers similar to Reproductive toxicity and related mechanisms of micro(nano)plastics in terrestrial mammals: Review of current evidence.
ClearResearch Progress in Reproductive Toxicity of Micro- and Nanoplastics on Males and Its Mechanisms
This review summarized research on the reproductive toxicity of micro- and nanoplastics (MNPs) in males, finding that MNPs accumulate in reproductive organs and cause toxicity through oxidative stress, hormonal disruption, and DNA damage, with implications for both animal and human reproductive health.
The reproductive and transgenerational toxicity of microplastics and nanoplastics: A threat to mammalian fertility in both sexes
This review examines how microplastics and nanoplastics can accumulate in reproductive organs and harm fertility in both males and females. In animal studies, exposure led to damaged sperm, disrupted hormones, and abnormal ovary and uterus structure. Offspring of exposed mothers also showed metabolic problems, immune issues, and cognitive disorders, suggesting these particles may affect future generations.
Concerning influences of micro/nano plastics on female reproductive health: focusing on cellular and molecular pathways from animal models to human studies
This review summarizes research showing that micro- and nanoplastics can harm the female reproductive system in multiple ways, from reducing ovarian reserves and disrupting hormone balance to accumulating in the placenta and breast milk. Animal studies show these particles trigger oxidative stress and inflammation in reproductive tissues, and human studies have confirmed their presence in placental tissue and infant feces, raising concerns about effects on fertility and fetal development.
Reproductive toxicity of micro- and nanoplastics
This review summarizes existing research on how micro- and nanoplastics harm reproduction across many species, from marine invertebrates to mammals. The particles can cause oxidative stress and hormone disruption, leading to reduced fertility, abnormal embryo development, and toxic effects that pass to offspring. The findings raise concerns that human reproductive health could be similarly affected given our increasing exposure to these particles.
The emerging risk of microplastics and nanoplastics on the microstructure and function of reproductive organs in mammals: A systematic review of preclinical evidence
Preclinical evidence from 12 studies shows micro- and nanoplastics accumulate in mammalian gonads, causing dose-dependent damage including seminiferous degeneration, sperm malformation, reduced follicular growth, and impaired hormone levels through pro-oxidant and pro-inflammatory mechanisms.
Unraveling the threat: Microplastics and nano-plastics' impact on reproductive viability across ecosystems
This review summarizes research on how microplastics and nanoplastics affect reproduction across many species, from aquatic invertebrates to mammals including humans. In males, exposure leads to testicular damage, lower sperm quality, and hormone disruption; in females, it causes ovarian and uterine problems, inflammation, and reduced fertility. The evidence also shows these reproductive harms can be passed to offspring, raising serious concerns about long-term effects on human fertility.
Adverse effects of microplastics and nanoplastics on the reproductive system: A comprehensive review of fertility and potential harmful interactions
This review summarizes how microplastics and nanoplastics can harm both male and female reproductive systems by disrupting hormone signaling, damaging sperm and egg cells, and causing inflammation in reproductive tissues. Smaller nanoplastics are especially concerning because they can cross biological barriers more easily and reach the testes and ovaries. With global infertility rates rising, the authors highlight environmental plastic exposure as a factor that deserves more research attention.
Effects of micro(nano)plastics on the reproductive system: A review
This review summarizes research on how micro and nanoplastics affect the reproductive system in both animal studies and cell experiments. Evidence indicates these particles can cross biological barriers, accumulate in reproductive organs, and disrupt hormones, egg development, and sperm quality. While human studies are still limited, the animal data suggests microplastic exposure may be a meaningful concern for reproductive health.
Reproductive and developmental implications of micro- and nanoplastic internalization: Recent advances and perspectives
This systematic review documented the detection of micro- and nanoplastics in human semen, placenta, and ovarian follicular fluid, and found evidence linking exposure to impaired sperm quality, disrupted ovarian function, and adverse pregnancy outcomes. In animal models, MNPs caused developmental toxicity and transgenerational effects, with oxidative stress, inflammation, and epigenetic modification identified as key mechanisms.
Toxicological effects of micro/nano-plastics on human reproductive health: A review
This review summarizes research on how micro- and nanoplastics affect human reproductive health in both men and women. Evidence from animal and lab studies shows that these particles can accumulate in reproductive organs, disrupt hormones, damage eggs and sperm, and cause inflammation and oxidative stress. While human studies are still limited, the growing body of evidence suggests that microplastic exposure is a potential threat to fertility that warrants further investigation.
Effects of nano and microplastics on the reproduction system: In vitro and in vivo studies review
This review summarizes both lab and animal studies on how micro and nanoplastics affect the reproductive system in males and females. Evidence shows that microplastics can reduce sperm quality, damage ovaries, disrupt hormone levels, and even cross the placenta during pregnancy. The findings raise significant concerns about how widespread microplastic exposure might contribute to fertility problems and reproductive health issues in humans.
The Pressing Issue of Micro- and Nanoplastic Contamination: Profiling the Reproductive Alterations Mediated by Oxidative Stress
This review examined how micro- and nanoplastics affect reproductive health across aquatic and land-based organisms, focusing on oxidative stress as the primary damage mechanism. Researchers found that these plastic particles can reach the gonads through the bloodstream and even accumulate in human and mouse placenta, with harmful effects on sperm and egg development, embryo growth, and offspring survival. The severity of reproductive harm appears to increase with smaller particle sizes and longer exposure times.
Reproductive toxicity of microplastics role of oxidative stress in cellular and molecular damage
This review synthesizes in vitro, in vivo, and epidemiological evidence on how microplastics cause reproductive toxicity, focusing on oxidative stress as the central mechanism. MPs infiltrate reproductive tissues, generate reactive oxygen species, and disrupt gametogenesis, hormone regulation, and embryonic development across multiple species.
Unravelling the potential mechanisms of nano- and microplastic toxicity to the male reproductive system: A systematic review
This systematic review found that micro- and nanoplastics accumulate in the testes and epididymis in rodent models, disrupting the blood-testis barrier, increasing germ cell death, reducing sperm motility, and causing hormone imbalance through oxidative stress and inflammation. Smaller nanoplastics penetrate tissues more readily for molecular disruption, while larger microplastics cause greater structural damage.
"Unseen Dangers: The Effects of Micro- and Nanoplastics on Human Reproductive Health - A Narrative Review"
This review examines the effects of micro- and nanoplastics on human reproductive health, covering evidence from in vitro, animal, and epidemiological studies showing that plastic particles can disrupt hormone signaling, sperm function, ovarian development, and placental integrity.
Micro-nanoplastics pollution and mammalian fertility: A systematic review and meta-analysis
This meta-analysis of 79 studies across five mammalian species found that micro- and nanoplastics cause reproductive toxicity in a concentration-dependent manner, particularly at high doses. Polystyrene was the most studied polymer, and most research focused on male fertility in mice, leaving a significant gap in knowledge about effects on food-producing animals that could serve as vectors for human exposure.
A meta-analysis-based adverse outcome pathway for the male reproductive toxicity induced by microplastics and nanoplastics in mammals
This meta-analysis of 39 studies mapped the adverse outcome pathway for microplastic and nanoplastic-induced male reproductive toxicity in mammals. Increased reactive oxygen species triggers a cascade of cellular damage including mitochondrial dysfunction, sperm DNA damage, and disrupted hormone signaling, ultimately leading to reduced sperm quality, impaired spermatogenesis, and decreased testosterone levels.
Threats of nano/microplastics to reproduction and offspring: Potential mechanisms and perspectives
This review summarized the evidence on how nano- and microplastics threaten reproduction and offspring health across multiple species, including fish, invertebrates, and mammals. The authors outlined potential mechanisms by which these plastic particles disrupt endocrine function, gonadal development, and embryonic development.
A review of the impact of micro‐ and nanoplastics on female reproduction: What we know and gaps in knowledge
This review examines what is known about how micro- and nanoplastics affect female reproductive health. Animal studies show these particles accumulate in ovarian tissue, disrupt hormones, and cause oxidative stress, leading to hormonal imbalances and ovarian damage, though research in humans is still limited.
Toxicity of microplastics and nanoplastics: invisible killers of female fertility and offspring health
This review summarizes research on how microplastics and nanoplastics affect female fertility across multiple species, from reproductive failure to developmental problems in offspring. The tiny particles can infiltrate the body through food, air, and skin, accumulating in reproductive tissues where they disrupt hormones and damage eggs. While animal studies cannot be directly applied to humans, the consistent findings across species raise serious concerns about the potential impact of microplastic exposure on women's reproductive health.
Mechanistic insights into microplastic-induced reproductive toxicity in aquatic organisms: A comprehensive review
This review summarizes how microplastics cause reproductive harm in aquatic organisms by disrupting hormones, triggering oxidative stress, and interfering with cell death pathways. These effects lead to reduced fertility, abnormal egg and sperm development, and changes that can pass to future generations. Since microplastics accumulate through the food chain, these reproductive effects in aquatic life could have broader implications for ecosystem health and the seafood that humans consume.
Microplastics and impaired male reproductive health—exploring biological pathways of harm: a narrative review
This narrative review summarizes the evidence that microplastics may harm male reproductive health through oxidative stress, hormone disruption, inflammation, and direct damage to reproductive cells. While animal studies show concerning effects on sperm quality, testicular function, and fertility, human studies are still lacking. The review calls for urgent research on microplastic impacts on human male fertility and for policies to reduce microplastic exposure.
Microplastics: unraveling the signaling pathways involved in reproductive health
This review examines the effects of microplastics on male and female reproductive health, focusing on the metabolic pathways involved in compromised gamete quality, toxicity, apoptosis, and DNA damage. Evidence indicates that microplastics can increase oxidative stress leading to developmental abnormalities, epigenetic changes, and reduced gamete quality, though research on mammalian and human reproductive effects remains limited compared to studies in aquatic organisms.
A critical review on male-female reproductive and developmental toxicity induced by micro-plastics and nano-plastics through different signaling pathways.
This critical review examined how micro- and nanoplastics disrupt male and female reproductive systems and fetal development through multiple signaling pathways, including endocrine disruption, oxidative stress, and epigenetic modification, based on animal and cell studies.