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Papers
5,972 resultsBirds as Bioindicators: Revealing the Widespread Impact of Microplastics
This systematic review found microplastics in over 200 bird species across the globe, from Antarctica to South Europe. Birds can suffer gut damage, oxidative stress, and toxic chemical buildup from ingesting plastics — a warning sign for broader ecosystem and food chain contamination that could affect humans too.
Microplastics in drinking water: A review on methods, occurrence, sources, and potential risks assessment
This systematic review found that microplastics are widespread in drinking water worldwide, with most particles smaller than 10 micrometers and composed of polyester, polyethylene, polypropylene, and polystyrene. Standardized sampling and analysis methods are urgently needed, as large variations in reported concentrations make it difficult to accurately assess health risks from drinking water exposure.
Microplastic pollution in groundwater: a systematic review
This systematic review reveals that microplastics have been found in groundwater sources worldwide, raising concerns about drinking water safety. Detection methods and reported contamination levels vary widely, highlighting the need for standardized testing to fully understand the scope of the problem.
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.
Microplastics in Our Waters: Insights from a Configurative Systematic Review of Water Bodies and Drinking Water Sources
This systematic review mapped microplastic contamination across rivers, lakes, seas, tap water, and bottled water worldwide. The findings show that microplastics are present in virtually every water source we rely on, with rivers being the most studied and polyethylene being the most commonly found plastic type.
Biodegradation of Typical Plastics: From Microbial Diversity to Metabolic Mechanisms
This review examines how marine microorganisms, including bacteria and fungi, can naturally break down common plastics like PET, polystyrene, and polyethylene. Marine microbes may be better adapted than land-based organisms for this task because they already thrive in harsh conditions, offering a potential environmentally friendly approach to addressing ocean plastic pollution.
Effects of polystyrene, polyethylene, and polypropylene microplastics on the soil-rhizosphere-plant system: Phytotoxicity, enzyme activity, and microbial community
Researchers tested how three common types of microplastics (polystyrene, polyethylene, and polypropylene) affect lettuce growth and soil health. All three types inhibited plant growth, disrupted antioxidant systems in the leaves, and altered the microbial communities in the soil around roots, with polystyrene and polypropylene causing the most disturbance.
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.
Global patterns of lake microplastic pollution: Insights from regional human development levels
A meta-analysis of 351 lakes across 43 countries found microplastic concentrations ranging from 0.09 to 130,000 items/m3 in surface water, with fibers as the dominant shape and polyethylene, polypropylene, and PET as the most common polymers. Countries with lower human development indices actually showed higher contamination levels, suggesting that waste management capacity is a key driver of lake microplastic pollution.
A systematic review on microplastic contamination in marine Crustacea and Mollusca of Asia: Current scenario, concentration, characterization, polymeric risk assessment, and future Prospectives
This systematic review documented microplastic contamination in shellfish and crustaceans across Asia, finding 79 species affected. Since these seafood species are widely consumed, the presence of microplastics — especially polyethylene and polypropylene — in their tissues represents a direct route of human exposure through diet.
Microplastics in Asian rivers: Geographical distribution, most detected types, and inconsistency in methodologies
A systematic review of 228 studies on microplastics in Asian rivers found polyethylene, polypropylene, and PET as the dominant polymers, primarily as fibers and fragments, with research concentrated in China and Japan. The diversity of sampling methods and reporting metrics across studies complicates comparative analysis, underscoring the need for standardized analytical frameworks in the region.
Mapping Microplastics in Humans: Analysis of Polymer Types, and Shapes in Food and Drinking Water—A Systematic Review
This systematic review mapped the types and shapes of microplastics found in food, drinking water, and human tissue samples. Polyethylene and polypropylene — common in food packaging — were the most frequently detected plastics, and fiber-shaped particles were especially prevalent in human samples.
Features, Potential Invasion Pathways, and Reproductive Health Risks of Microplastics Detected in Human Uterus
Researchers found microplastics in the uterine lining of 22 women, identifying common plastics like polyamide, polyurethane, and PET in sizes ranging from 2 to 200 micrometers. In mouse experiments, microplastic exposure led to reduced fertility, abnormal offspring sex ratios, and significant uterine inflammation. These findings raise serious concerns about the potential impact of microplastic contamination on female reproductive health and pregnancy outcomes.
Production of polyhydroxyalkanoate (PHA) biopolymer from crop residue using bacteria as an alternative to plastics: a review
This review examines how PHA, a biodegradable plastic made from crop waste using bacteria, could serve as a sustainable alternative to conventional plastics. While PHA breaks down naturally unlike traditional plastics that fragment into microplastics, challenges remain in making it heat-stable and cost-competitive enough for widespread industrial use.
Characteristics and influencing factors of microplastics entering human blood through intravenous injection
This study found that common medical devices used for intravenous injections -- syringes, infusion sets, and vein needles -- release microplastics directly into patients' bloodstreams. The dominant particles were polyethylene and polypropylene fragments, and repeated use of devices significantly increased the amount released. While the total number of particles entering the body this way is lower than from food, the direct injection into blood makes this exposure pathway especially concerning.
Micro- and Nanoplastics in the Environment: Current State of Research, Sources of Origin, Health Risks, and Regulations—A Comprehensive Review
This review summarizes the current state of research on micro- and nanoplastics found in air, water, and soil worldwide. These tiny plastic particles pose significant threats to human health including oxidative stress, inflammation, cellular damage, and possible cancer-causing effects, and the authors call for stronger regulations and more research into how they harm the body.
Microplastics in urine, sputum and lung lavage fluid from patients with respiratory illnesses
Researchers analyzed urine, sputum (mucus from coughing), and lung fluid from 30 patients with respiratory conditions in Iran and found microplastics in all three types of samples. Sputum contained the most particles (358 total), dominated by polyurethane fibers, while urine had the fewest (9 particles). The different types and sizes of plastics found in each fluid suggest the body sorts and distributes inhaled and ingested microplastics through different pathways.
Unveiling the adsorption mechanism of perfluorooctane sulfonate onto polypropylene nanoplastics: A combined theoretical and experimental investigation
Researchers combined computer simulations with lab experiments to understand how PFOS, a widespread "forever chemical," attaches to polypropylene nanoplastic particles in water. They found that PFOS binds readily to the plastic surface, and the resulting combination moves more easily through water than the plastic particle alone, making it potentially more dangerous. Changes in water acidity (pH) can affect how much PFOS sticks to the plastic, influencing how these pollutants travel together through the environment.
MPs Entering Human Circulation through Infusions: A Significant Pathway and Health Concern
This study measured the microplastics released by standard intravenous infusion equipment and found approximately 7,500 polypropylene particles per liter of fluid, with most particles between 1 and 20 micrometers in size. Standard filtration built into these medical devices does not fully prevent microplastic contamination. Since these particles enter the bloodstream directly, even small amounts could accumulate in organs like the liver, spleen, and lungs over time.
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.
Assessing microplastic and nanoplastic contamination in bird lungs: evidence of ecological risks and bioindicator potential
Researchers examined the lungs of 51 bird species and found microplastics in all of them, averaging over 400 particles per gram of lung tissue, with nanoplastics also detected in five species tested. Birds may serve as early warning indicators of airborne plastic pollution, and the widespread contamination of their lungs suggests that humans breathing the same air face similar exposure risks.
Microplastics and Soil Greenhouse Gas Emissions: A Critical Reflection on Meta-Analyses
This meta-analysis pools data from multiple studies to assess whether microplastics in agricultural soil affect greenhouse gas emissions. The findings reveal that the environmental impact of microplastics extends beyond direct toxicity, as they may alter soil microbial activity in ways that contribute to climate change.
Thailand's animals in peril: a systematic review of microplastic contamination and its ecological consequences
This systematic review examines microplastic contamination in animals across Thailand, from fish to birds, revealing widespread pollution in the country's ecosystems. The findings matter for human health because microplastics that accumulate in wildlife can move up the food chain and eventually end up on our plates.
Microplastics in our diet: A growing concern for human health
Microplastics smaller than 5 millimeters are entering our food through drinking water, salt, seafood, packaged food, and even alcoholic beverages. Once consumed, these particles have been detected in human blood, feces, breast milk, liver, and other tissues, showing they can accumulate throughout the body. Emerging evidence links microplastic exposure to inflammation, oxidative stress, gut problems, brain effects, reproductive harm, and cardiovascular risks.