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Papers
3,994 resultsMeta-analysis of the effects of microplastic on fish: Insights into growth, survival, reproduction, oxidative stress, and gut microbiota diversity
A meta-analysis of 3,757 biological endpoints from 85 studies found that microplastic exposure significantly inhibits fish growth, survival, and reproduction while increasing oxidative damage, but does not significantly alter gut microbiota diversity. The severity of toxic effects depends on microplastic type, size, concentration, exposure pathway, and the fish's life stage.
A systematic review of the impacts of exposure to micro- and nano-plastics on human tissue accumulation and health
This systematic review found growing evidence that micro- and nanoplastics accumulate in human tissues including lungs, gut, and blood, with lab studies showing potential disruption to immune, reproductive, endocrine, and nervous systems. The review identifies ingestion, inhalation, and dermal contact as the three main exposure routes and highlights that the smallest nanoplastic particles pose the greatest concern due to their ability to cross biological barriers.
Effects of Microplastic Exposure on Human Digestive, Reproductive, and Respiratory Health: A Rapid Systematic Review
This systematic review examined studies on how microplastic exposure affects human digestive, reproductive, and respiratory health. Early evidence suggests links to gut inflammation, reproductive issues, and lung irritation, though the review notes that more high-quality human studies are urgently needed.
An Umbrella Review of Meta-Analyses Evaluating Associations between Human Health and Exposure to Major Classes of Plastic-Associated Chemicals
This umbrella review — a review of existing meta-analyses — assessed the health effects of chemicals found in plastics, including BPA, phthalates, and PFAS. The evidence links these plastic-associated chemicals to hormonal disruption, reproductive problems, metabolic issues, and increased cancer risk across many studies.
Microplastics comprehensive review: Impact on honey bee, occurrence in honey and health risk evaluation
This systematic review examines how microplastics contaminate honey through bees and their environment. The findings show that bees accumulate microplastics from polluted air, water, and soil, which can then end up in honey — a product many people consume for its health benefits.
Health impacts of microplastic and nanoplastic exposure
This review examines the growing evidence that micro- and nanoplastics can cross barriers in the lungs and gut, enter the bloodstream, and reach organs like the brain, placenta, and reproductive system. Early clinical studies suggest links to immune changes, heart problems, and reproductive effects, though more research is needed. Better methods for measuring plastic exposure in humans are critical to understanding the true health risks.
Impact of microplastics on female reproductive health: insights from animal and human experimental studies: a systematic review
This systematic review of 15 experimental studies found that microplastic exposure significantly impairs ovarian function, decreases fertility rates, and disrupts hormone levels in female subjects. Several studies also reported negative effects on embryo development and offspring health, though study quality varied and more rigorous research is needed to confirm mechanisms.
Microplastics in human skeletal tissues: Presence, distribution and health implications
This study is the first to find microplastics in human bones, cartilage, and spinal discs, with the highest concentrations found in spinal discs. The most common plastics detected were polypropylene and polystyrene, and animal experiments confirmed that microplastics can reach skeletal tissues through the bloodstream. Exposure triggered inflammatory markers in the blood, suggesting microplastics in bones could contribute to skeletal health problems.
First evidence of microplastics in human ovarian follicular fluid: An emerging threat to female fertility
For the first time, researchers detected microplastic particles in the fluid surrounding eggs in human ovaries. Tiny plastic particles were found in 14 out of 18 women undergoing fertility treatment, and higher microplastic levels correlated with elevated follicle-stimulating hormone, a key reproductive hormone. While no direct link to fertility outcomes was confirmed in this small study, the findings raise concerns about microplastic exposure and female reproductive health.
Risk Assessment of Microplastics in Humans: Distribution, Exposure, and Toxicological Effects
This meta-analysis tracked the rapid growth of research on microplastics and human health, finding a shift from studying environmental pollution toward understanding direct human exposure and health effects. Emerging concerns include reproductive toxicity, neurotoxicity, and immune system disruption from microplastic exposure.
Polylactic Acid Micro/Nanoplastic Exposure Induces Male Reproductive Toxicity by Disrupting Spermatogenesis and Mitochondrial Dysfunction in Mice
Even so-called "eco-friendly" biodegradable plastic (polylactic acid, or PLA) was found to cause reproductive harm in male mice. After breaking down in the digestive system, tiny PLA nanoparticles crossed into the testes and damaged sperm quality, mitochondria (the energy producers in cells), and hormone levels. This challenges the assumption that biodegradable plastics are safe and highlights potential risks to male fertility.
Global meta-analysis reveals differential effects of microplastics on soil ecosystem
This meta-analysis pooled data from 114 studies to understand how microplastics affect soil ecosystems at different concentrations. Higher microplastic levels reduced soil organic matter and microbial activity, suggesting that increasing plastic pollution could degrade the soil that supports our food supply.
Adsorption of Emerging Contaminants on Microplastics in the Environment: A Systematic Review
This systematic review found that microplastics can absorb and carry other harmful chemicals — like pesticides, pharmaceuticals, and heavy metals — through the environment. This "hitchhiker effect" means microplastics may deliver concentrated doses of toxic substances to organisms and potentially to humans.
Micro- and nano-plastics in the atmosphere: A review of occurrence, properties and human health risks
This review summarizes research on tiny plastic particles floating in the air we breathe, both indoors and outdoors. Studies show that inhaling these airborne microplastics and nanoplastics can trigger immune responses, oxidative stress, and cell death, potentially contributing to cardiovascular disease and reproductive problems, though standardized testing methods are still needed.
Effects of plastic residues and microplastics on soil ecosystems: A global meta-analysis
Global meta-analysis of 6,223 observations found that plastic residues and microplastics decreased soil water movement by 14%, dissolved organic carbon by 10%, and total nitrogen by 7%, while reducing plant height by 13% and root biomass by 14%. Soil animal body mass and reproduction decreased by 5% and 11% respectively, though soil enzyme activity increased by 7-441%.
Discovery and analysis of microplastics in human bone marrow
For the first time, researchers detected microplastics in human bone marrow, finding plastic particles in all 16 samples tested. The most common types were polyethylene and polystyrene, with about 90% of particles smaller than 100 micrometers. This discovery shows that microplastics can penetrate deep into the body and reach the tissue where blood cells are made, raising questions about potential effects on blood cell production and immune function.
Molecular and Cellular Effects of Microplastics and Nanoplastics: Focus on Inflammation and Senescence
This review summarizes research showing that micro- and nanoplastics trigger oxidative stress, inflammation, and premature cell aging across many experimental models. These are the same biological processes linked to heart disease, brain disorders, and other age-related conditions. Particularly concerning, studies in animals show that plastic-related damage can be passed from parents to offspring, suggesting potential long-term generational health effects.
A Systematic Review of the Placental Translocation of Micro- and Nanoplastics
Nine out of eleven studies confirmed that micro- and nanoplastics can cross the placental barrier, with translocation depending on particle size, charge, chemical modification, and protein corona formation. Animal and in vitro studies showed emerging evidence of placental and fetal toxicity from plastic particle exposure.
Microplastic diagnostics in humans: “The 3Ps” Progress, problems, and prospects
Microplastics have now been detected in a wide range of human biological samples including blood, liver, lung, placenta, kidney, spleen, sputum, and feces using advanced analytical methods. This first systematic review of human microplastic diagnostics revealed that contamination control procedures remain inconsistent across studies, complicating cross-study comparison of exposure levels.
Microplastic presence in dog and human testis and its potential association with sperm count and weights of testis and epididymis
Researchers found microplastics in every dog and human testis sample tested, with human testes containing nearly three times more plastic than dog testes. Polyethylene was the dominant plastic type in both species, and certain plastics like PVC and PET were associated with lower testis weight. These findings suggest that widespread microplastic contamination of the male reproductive system could be contributing to declining sperm counts.
Impact of Microplastics on Pregnancy and Fetal Development: A Systematic Review
A systematic review of 12 studies confirmed the presence of microplastics ranging from 2.1 to 100 micrometers in human placentas and fetal tissue. Microplastic levels correlated with reduced birthweight, affected gestational age, diminished microbiome diversity, and impaired fetal growth and development, with lifestyle choices influencing placental microplastic burden.
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.
Impacts of Climate Change and Agricultural Practices on Nitrogen Processes, Genes, and Soil Nitrous Oxide Emissions: A Quantitative Review of Meta-Analyses
This mega-analysis of meta-analyses found that global warming increased soil nitrous oxide emissions by 160%, while nitrogen fertilization caused a 153% increase, both driven by enhanced nitrification and denitrification. Notably, microplastic exposure also affected nitrogen-cycling genes, and biochar application reduced emissions by about 16%, suggesting practical mitigation strategies for agricultural greenhouse gas output.
Quantitation and identification of microplastics accumulation in human placental specimens using pyrolysis gas chromatography mass spectrometry
Researchers analyzed 62 human placenta samples and found microplastics in every single one, with concentrations ranging from 6.5 to 685 micrograms per gram of tissue. Polyethylene, the most common plastic in everyday products, made up 54% of the plastics found. This widespread presence of microplastics in placentas raises concerns about fetal exposure during pregnancy and potential effects on development.