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61,005 resultsShowing papers similar to Effect of Nanoplastics on Different Biological Systems
ClearAssessing the Impact of Nanoplastics in Biological Systems: Systematic Review of In Vitro Animal Studies
This systematic review of lab studies found that nanoplastics can damage cells in the gut, lungs, liver, brain, and reproductive organs of animals. These ultra-small plastic particles appear capable of crossing biological barriers and causing inflammation and oxidative stress, raising concerns about similar effects in humans.
The potential impacts of micro-and-nano plastics on various organ systems in humans
This review summarizes research on how micro- and nanoplastics can affect virtually every organ system in the human body, including the digestive, respiratory, immune, and reproductive systems. The evidence from animal and cell studies shows these particles cause harm through oxidative stress, inflammation, immune dysfunction, and disrupted metabolism, though more research using realistic exposure levels in humans is needed.
Effects of micro-and-nano plastics on various organ systems in health
This review examines the toxicological effects of micro- and nanoplastics on multiple human organ systems—including the gut, liver, lungs, cardiovascular system, and brain—summarizing mechanisms of harm such as oxidative stress, inflammation, and endocrine disruption.
Micro- and Nanoplastics on Human Health and Diseases: Perspectives and Recent Advances
This review provides a comprehensive overview of how micro- and nanoplastics enter the human body through ingestion, inhalation, and skin absorption, and how they can then travel through the bloodstream to reach virtually every organ. Researchers summarize evidence that these particles can trigger inflammation, oxidative stress, and disruption of hormonal and immune functions. The study emphasizes that the ability of these particles to cross biological barriers and accumulate in tissues makes understanding their long-term health effects an urgent research priority.
Effects of Nanoplastics on Human Health: A Comprehensive Study
This comprehensive review examines the diverse health effects of nanoplastics, drawing on toxicology, environmental science, and epidemiology to document how these particles interact with human biological systems. The authors conclude that nanoplastics represent a growing public health concern requiring further investigation.
Toxicity and Accumulation of Nanoplastics Materials: A Review of Experimental Evidence Across Biological Systems
This systematic review of studies from 2010 to 2025 found that nanoplastics can penetrate biological barriers and accumulate in tissues across many organisms. Their tiny size makes them especially concerning because they can enter cells, cause oxidative stress and inflammation, and potentially affect organ function in ways that larger plastic particles cannot.
Cellular and Systemic Effects of Micro- and Nanoplastics in Mammals—What We Know So Far
This review summarized known cellular and systemic effects of micro- and nanoplastics in mammals, finding that while ingestion is common, knowledge of health impacts remains limited, with oxidative stress and inflammation as the most reported biological responses.
Micro-and Nanoplastic-Induced Biochemical Toxicity: Emerging Mechanisms and Health Risks Across Biological Systems
This comprehensive review synthesizes current understanding of how micro- and nanoplastics cause biochemical toxicity across biological systems, from plants and invertebrates to vertebrates and humans. Key mechanisms include oxidative stress, membrane disruption, immune activation, genotoxicity, endocrine disruption, and microbiome perturbation, all modulated by particle size, shape, and surface chemistry. The authors highlight critical gaps in standardization, chronic low-dose effect data, and the need for translatable biomarkers for risk assessment.
Cellular and Systemic Impacts of Microplastics and Nanoplastics
This review synthesized evidence on how micro- and nanoplastics cause cellular and systemic harm through inflammation, oxidative stress, mitochondrial dysfunction, and endocrine disruption across multiple organ systems. The authors emphasize that exposure is ubiquitous and that health impacts are no longer speculative.
The Impact of Microplastics and Nanoplastics on Human Health: A Follow-Up Study Focusing on Endocrine, Nervous, and Immune Systems
This review examines evidence for microplastic and nanoplastic impacts on the endocrine, nervous, and immune systems, documenting how particles detected in human organs can disrupt hormone signaling, induce neuroinflammation, and alter immune function.
Adverse Outcome Phenomena and Toxicity Mechanisms of Micro and Nanoplastics in Human Health
This review examines the growing evidence that micro- and nanoplastics can enter the human body through food, water, and air, and may contribute to harmful biological effects. Researchers found that these tiny particles can trigger oxidative stress, inflammation, and disruption of hormonal and immune systems in laboratory studies. The study highlights the need for a unified research approach to better understand how microplastic exposure may affect long-term human health.
Exposure Pathways, Systemic Distribution, and Health Implications of Micro- and Nanoplastics in Humans
This review summarizes how micro- and nanoplastics enter the human body through food, air, and skin, then distribute to organs throughout the body. Research in animal and cell models shows these particles can cause oxidative stress, inflammation, brain toxicity, reproductive problems, and potentially cancer, though standardized methods for assessing real-world human health risks are still needed.
Biological Effects of Microplastics: A Review.
Researchers reviewed how microplastics harm a wide range of living things, finding they cause physical damage, inflammation, oxidative stress, and reproductive problems in aquatic animals, while also carrying toxic chemicals and dangerous bacteria into organisms. Major gaps remain in understanding the effects of long-term low-dose exposure and the risks posed by even tinier nanoplastics.
Nanoplastics in the Environment: Sources, Fate, Toxicity, Challenges and Mitigation Strategies
This review covers the formation, environmental fate, and health risks of nanoplastics, emphasizing their capacity to penetrate biological barriers and cause oxidative stress, inflammation, DNA damage, and endocrine disruption, alongside current strategies for mitigation.
Advances on micro/nanoplastics and their effects on the living organisms: A review
This review examines the current state of research on how micro- and nanoplastics affect plants, animals, microorganisms, and humans. Researchers found that these tiny plastic particles can cause oxidative stress, inflammation, reproductive problems, and disruption of gut microbiomes across a wide range of species. The study highlights that while significant progress has been made in understanding these effects, major gaps remain in assessing long-term exposure risks at realistic environmental concentrations.
Overview of the ecotoxicological impacts of micro and nanoplastics in aquatic environments
This review summarises the ecotoxicological impacts of micro- and nanoplastics on marine and freshwater ecosystems, covering mechanisms including physical damage, oxidative stress, inflammation, reproductive impairment, and metabolic disruption in aquatic species. It also discusses bioaccumulation and trophic transfer dynamics.
From natural environment to animal tissues: A review of microplastics(nanoplastics) translocation and hazards studies
This review summarizes how micro- and nanoplastics travel from the environment into animal bodies through water, food, air, and even skin contact, then move through the bloodstream to accumulate in organs. Once inside, these particles cause oxidative stress, inflammation, gut damage, reproductive harm, and nervous system effects across many animal species. The findings strongly suggest that similar pathways of exposure and harm could apply to humans.
Cellular and Molecular Mechanisms of Micro- and Nanoplastics Driving Adverse Human Health Effects
This review examines the biological mechanisms by which micro- and nanoplastics may cause harm in humans, including oxidative stress, inflammation, disruption of protective barriers, and immune system problems. Evidence from lab and animal studies suggests these particles can affect the gut, heart, brain, and reproductive systems, though human data is still limited to detecting plastics in tissues rather than proving they cause specific diseases. The authors highlight that most studies use higher doses than people actually encounter, making it important to develop research models that better reflect real-world chronic exposure.
A comprehensive review on the source, ingestion route, attachment and toxicity of microplastics/nanoplastics in human systems
This review summarizes how microplastics and nanoplastics enter the human body through eating, breathing, and skin contact, then spread to organs throughout all nine major body systems. The particles cause harm mainly through oxidative stress, inflammation, and disrupted metabolism, with the digestive and respiratory systems being most affected since they are the primary entry points.
Cellular and Systemic Impacts of Microplastics and Nanoplastics
This review systematically examined the cellular and systemic health impacts of micro- and nanoplastics, covering uptake mechanisms, organ distribution, and effects on inflammation, oxidative stress, and endocrine function. The authors conclude that MNPs pose credible risks to multiple body systems and call for stronger regulatory action.
Effect of micro- and nanoplastics as food contaminants on the immune system
This review synthesized research on how microplastic and nanoplastic exposure affects immune system function, finding evidence across multiple studies that these particles can modulate immune responses and trigger inflammatory pathways in exposed organisms. The authors highlight immune disruption as an emerging health concern from micro- and nanoplastic contamination.
Micro and Nanoplastics on Human Health and Diseases: Perspectives and Recent Advances
This review covers how micro- and nanoplastic particles enter the human body through ingestion, inhalation, infusion, and skin absorption, distribute to virtually all tissues and organs via the circulatory system, and cause health impacts including inflammatory responses, cellular damage, and endocrine disruption.
Micro- and nanoplastics in neurological dysfunction
This review examines growing evidence that micro- and nanoplastic particles can interfere with the nervous system across multiple species, including humans. Researchers found that plastic particles may disrupt cellular metabolism, affect brain development, and increase vulnerability to neurodevelopmental disorders and neurodegeneration. The authors highlight significant knowledge gaps that need to be addressed to understand the long-term neurological impacts of plastic particle exposure.
Micro- and nanoplastics: origin, sources of intake and impact on human health (literature review)
This literature review synthesizes mechanisms by which micro- and nanoplastics interact with living organisms, examining their physicochemical properties, routes of human exposure, and documented health effects across multiple organ systems.