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61,005 resultsShowing papers similar to Atmospheric micro (nano) plastics: future growing concerns for human health
ClearAirborne Microplastics: Another Threatening to Our Health
This review examines the emerging evidence on airborne microplastics, covering their sources, how they travel through the atmosphere, and how they enter the human respiratory system through inhalation. Researchers highlight potential health effects including pulmonary inflammation, oxidative stress, and endocrine disruption, with particle size influencing how deeply they penetrate into the lungs. The study calls for standardized measurement protocols and urgent interdisciplinary research to better understand the health risks of breathing in microplastic particles.
Atmospheric Microplastics: Perspectives on Origin, Abundances, Ecological and Health Risks
This review summarizes current knowledge about microplastics in the atmosphere, including their sources, how far they travel, and potential health effects from inhalation. Researchers found that airborne microplastics can carry toxic chemicals deep into the respiratory system and may contribute to respiratory problems and other health concerns. The study emphasizes that atmospheric microplastic pollution remains poorly understood due to a lack of standardized measurement methods.
A comprehensive review of micro- and nano-plastics in the atmosphere: Occurrence, fate, toxicity, and strategies for risk reduction.
This review examines a decade of research on micro- and nano-plastics (MNPs) in the atmosphere, covering their occurrence in outdoor and indoor air, toxicological effects on human health, and strategies to reduce exposure risk from inhalation of airborne plastic particles.
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.
Atmospheric Microplastics and Human Health: Sources, Exposure, and Risks
This review systematically summarizes the sources, distribution, and health implications of atmospheric microplastics in both indoor and outdoor air. The study highlights growing evidence that inhaled microplastics can enter the human body and pose potential risks to the respiratory system, while identifying key limitations and uncertainties in current exposure assessment methods.
An emerging class of air pollutants: Potential effects of microplastics to respiratory human health?
This review explores the emerging concern that airborne microplastics can be inhaled by humans, potentially causing adverse effects on the respiratory system. Researchers compiled available data on the concentration, size, shape, and chemical composition of microplastic particles found in urban air. The findings suggest that airborne plastic debris represents a largely understudied class of air pollutant with potential implications for human health.
Microplastics in air: a hidden public health threat
This short review explains how microplastics become airborne from land, ocean, and industrial sources and are transported globally through the atmosphere, potentially entering the human body through inhalation. The author frames airborne microplastics as a hidden public health threat warranting greater scientific and regulatory attention.
Atmospheric microplastics: exposure, toxicity, and detrimental health effects
This review summarizes what is known about microplastics in the air, including their sources, how they travel, and their effects on human health when inhaled or swallowed. Airborne microplastics come from synthetic textiles, road dust, construction materials, and industrial processes, and can trigger inflammation and oxidative stress in the lungs and other organs. The authors conclude that atmospheric microplastics represent an underappreciated route of human exposure that deserves more research and regulation.
A review of atmospheric microplastics pollution: In-depth sighting of sources, analytical methods, physiognomies, transport and risks
This review provides an in-depth analysis of atmospheric microplastic pollution, examining sources, detection methods, physical characteristics, transport mechanisms, and health risks. Researchers found that indoor environments tend to contain higher concentrations of airborne microplastics than outdoor settings, and that current detection methods are limited in their ability to capture the smallest particles. The study emphasizes the need for standardized sampling procedures and more research into the health effects of inhaling microplastic particles.
Airborne micro- and nanoplastics: emerging causes of respiratory diseases
This review examines growing evidence that tiny airborne plastic particles can enter the lungs and trigger or worsen respiratory diseases including asthma, chronic obstructive pulmonary disease, and lung inflammation. The smallest nanoplastics are especially concerning because they can penetrate deep into lung tissue and even enter the bloodstream, yet research on airborne plastic health effects significantly lags behind studies on waterborne exposure.
Microplastics as an Emerging Source of Particulate Air Pollution
This review examines the growing body of research on airborne microplastics as a source of particulate air pollution, covering their sources, transport mechanisms, and presence in both indoor and outdoor environments. Researchers highlight that airborne microplastics can travel long distances and have been found in remote locations far from population centers. The study underscores significant gaps in our understanding of how inhaling these tiny plastic particles may affect human health.
Airborne microplastics and their impact on human health: A critical review
This review analyzes the growing body of research on microplastics floating in indoor and outdoor air and their potential effects on human health. Evidence indicates that inhaled microplastics can trigger inflammatory responses and cellular damage in the lungs, liver, and reproductive system, and may carry toxic additives deeper into the body. The authors call for more interdisciplinary research to understand the long-term health implications of breathing in these tiny plastic particles.
Atmospheric Micro and Nanoplastics: An Enormous Microscopic Problem
This review examined atmospheric micro- and nanoplastic pollution, synthesizing evidence that plastic particles are suspended, transported, and deposited globally through atmospheric pathways, concluding that air represents a major but understudied route of human exposure and environmental dispersal requiring integration into plastic pollution models.
Newly Emerging Airborne Pollutants: Current Knowledge of Health Impact of Micro and Nanoplastics
This review examines microplastics and nanoplastics as emerging airborne pollutants, with sources including synthetic textiles, rubber tires, and furniture. Researchers found that while microplastics can reach the lungs, nanoplastics are small enough to cross into the bloodstream, potentially increasing health risks. Evidence from workers exposed to PVC and synthetic fibers suggests that long-term inhalation may lead to persistent inflammation and lung damage.
The Pollution of Atmospheric Microplastics and Their Potential Risks to Humans
This review summarizes what is known about airborne microplastics—tiny plastic particles floating in the air we breathe—including their sources, distribution, and potential health risks. Fibers are the most common form found in air, and inhalation is an important but underestimated route of human microplastic exposure.
Microplastics Aloft: A comprehensive exploration of sources, transport, variations, interactions and their implications on human health in the atmospheric realm
This review summarizes research on airborne microplastics and finds that indoor environments typically contain far more microplastic particles than outdoor air -- up to 760,000 particles per square meter per day indoors versus a maximum of about 1,159 outdoors. Sources include synthetic clothing, plastic manufacturing, and even ocean spray. Inhaled microplastics can reach deep into the lungs and potentially enter the bloodstream, raising concerns about respiratory and cardiovascular health effects.
A Review of Atmospheric Micro/Nanoplastics: Insights into Source and Fate for Modelling Studies
This review synthesizes current knowledge on sources, atmospheric transport, and environmental fate of micro- and nanoplastics in the atmosphere, identifying key knowledge gaps including the long-range transport potential, dry and wet deposition rates, and health implications of inhaled airborne plastic particles.
Plastic Smell: A Review of the Hidden Threat of Airborne Micro and Nanoplastics to Human Health and the Environment
This review examines the growing threat of airborne micro- and nanoplastics, which spread globally through atmospheric transport and can settle in both cities and remote areas. Inhaling these particles may cause respiratory inflammation, oxidative stress, and other health problems, and the particles can also carry harmful chemicals and microbes, amplifying their potential impact.
Does microplastic really represent a threat? A review of the atmospheric contamination sources and potential impacts
This review examines airborne microplastics as emerging atmospheric contaminants that people inevitably inhale during normal breathing. Researchers found that fibers from synthetic textiles are the most common form of airborne microplastics, and their small size allows them to remain suspended in air and potentially cause health problems. The study discusses analytical methods used to measure airborne microplastics and calls for more research into their environmental and health impacts.
Characteristics, Toxic Effects, and Analytical Methods of Microplastics in the Atmosphere
This review summarizes current knowledge about the distribution, sources, and fate of microplastics in the atmosphere, along with their potential toxic effects on animals and humans. Researchers identified significant gaps in both quantitative analysis methods and understanding of the mechanisms behind inhaled microplastic toxicity. The study calls for improved sampling and characterization techniques to better assess the health risks of airborne microplastic exposure.
Airborne microplastics: Emerging threats and health implications for humans
This review synthesizes research on airborne microplastics as emerging human health hazards, covering their sources, atmospheric transport, inhalation and ingestion exposure pathways, and evidence of toxicological impacts on the respiratory and gastrointestinal systems.
Airborne microplastics: environmental prevalence, human health risks, and mitigation strategies
This critical review synthesized findings from 156 peer-reviewed papers on airborne microplastics, covering sampling methodologies, environmental prevalence, health hazards, and mitigation strategies. Researchers found that atmospheric microplastic concentrations vary widely across environments and highlighted significant gaps in toxicological research regarding human health effects from inhaled microplastic particles.
Atmospheric microplastics: A review of pollution characteristics, human exposure pathways, and emerging health risks
This comprehensive review examines microplastic pollution in indoor and outdoor air, highlighting exposure pathways and emerging health risks. Researchers found that poorly ventilated indoor spaces have the highest concentrations of airborne microplastics, while factors like humidity and ventilation significantly influence pollution levels, raising concerns about chronic inhalation exposure.
Ecological and human health risks of atmospheric microplastics (MPs): a review
This review examined the ecological and human health risks associated with atmospheric microplastics, which are recognized as ubiquitous and persistent emerging pollutants. The study suggests that airborne microplastics represent a growing environmental concern requiring further investigation.