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61,005 resultsShowing papers similar to Gut microbiota as an emerging target for the health implications of microplastics
ClearMicroplastics and the gut microbiome: Emerging health concerns and strategies
This review covers how microplastic ingestion affects the gut microbiome, describing mechanisms by which microplastics cause intestinal disorders, disrupt endocrine function, and promote pathogenic bacterial growth, while also noting inhalation and dermal absorption as secondary exposure routes.
Micro(nano)plastics and their potential impact on human gut health: a narrative review
This narrative review synthesizes evidence on how microplastics and nanoplastics affect the human gut, discussing ingestion routes, gut barrier interactions, microbiome disruption, and potential systemic health effects.
Potential effects of MPs and their co-pollutants on human intestinal tract
This review examines how microplastics and their co-pollutants enter and damage the human intestinal tract, summarizing evidence for microplastic-induced gut barrier disruption, microbiota alteration, and systemic translocation to other organs.
The role of gut microbiota in MP/NP-induced toxicity
This review summarizes how micro- and nanoplastics disrupt gut bacteria and why that matters for overall health. The tiny plastic particles change the composition and function of the gut microbiome, which can trigger inflammation, weaken the intestinal barrier, and potentially contribute to diseases beyond the gut through the immune and nervous systems.
Micro(nano)plastics and Their Potential Impact on Human Gut Health: A Narrative Review
This review summarizes research on how micro- and nanoplastics affect the gut, finding that they can damage the intestinal lining, trigger immune responses, and disrupt the balance of beneficial gut bacteria in both cell studies and animal models. Since humans are primarily exposed to microplastics through food and food packaging, understanding these gut effects is essential for assessing the true health risks of plastic pollution.
Health risk analysis of micro-and nanoplastic exposure via the microbiota-gut-brain axis
This review examines how micro- and nanoplastics that accumulate in the gastrointestinal tract may disrupt the microbiota-gut-brain axis through neural, immune, and endocrine pathways. The study suggests that these particles can interfere with normal gut microbiota function after entering the body through diet, inhalation, and skin contact, potentially inducing or worsening health effects.
Micro(nano)plastics in food system: potential health impacts on human intestinal system.
This review assessed how micro(nano)plastics in the human food system reach the intestine and accumulate in the gut, summarizing evidence that they can alter intestinal barrier function, trigger inflammation, and disrupt the gut microbiome, with implications for long-term digestive health.
Microplastics and the gut-brain axis: Unraveling neurotoxic mechanisms and health implications
This review examines how microplastics interact with the gut-brain axis, a communication network linking the digestive system to the central nervous system. Researchers found that microplastics can disrupt intestinal barrier integrity, alter gut microbiota composition, and trigger systemic inflammation that may affect neurotransmitter balance and brain function. The study suggests that chronic microplastic exposure through the diet could contribute to neurological effects through inflammatory and oxidative stress pathways.
[Effect of microand nanoplastics on the gastrointestinal mucosa and intestinal microbiome].
This review examines how micro- and nanoplastics entering through the food chain affect the gastrointestinal tract, finding evidence of disruption to gut mucosal integrity and intestinal microbiome composition, with implications for digestive health and systemic immune function.
Gut microbiome remodeling induced by microplastic exposure in humans
This review synthesizes evidence on how microplastic exposure affects the human gut microbiome, drawing on cross-sectional studies of people exposed through plastic food containers and other sources. Evidence indicates that microplastic exposure is associated with shifts in gut bacteria composition, including increases in certain bacterial groups linked to inflammation. The authors explore potential connections between microplastic-induced changes in gut bacteria and the development of various health conditions.
Innovative mechanisms of micro- and nanoplastic-induced brain injury: Emphasis on the microbiota-gut-brain axis
This review summarizes how micro- and nanoplastics may damage the brain through the gut-brain axis, a communication pathway between the digestive system and the nervous system. Nanoplastics can disrupt gut bacteria and weaken the intestinal barrier, potentially sending inflammatory signals to the brain. The authors suggest that targeting gut health could be a way to reduce brain damage caused by nanoplastic exposure.
Microplastics and human health: unveiling the gut microbiome disruption and chronic disease risks
This review summarizes evidence that microplastics disrupt the gut microbiome, the community of bacteria in our digestive system that plays a key role in immunity, metabolism, and overall health. By altering gut bacteria balance and triggering inflammation, microplastic exposure may contribute to chronic conditions including inflammatory bowel disease, metabolic disorders, and potentially even neurological problems through the gut-brain connection.
Impacts of microplastics on gut health: Current status and future directions
This systematic review found consistent evidence across mouse, fish, and earthworm models that microplastics disrupt gut microbiota composition, impair intestinal barrier integrity, and trigger gastrointestinal inflammation. The correlation between microplastic exposure and gut health deterioration was statistically significant across all animal models examined.
Impact of microplastics on the intestinal microbiota: A systematic review of preclinical evidence
Across 28 preclinical studies, microplastics triggered intestinal dysbiosis characterized by increased Firmicutes and Proteobacteria and decreased Bacteroidetes, while increasing gut permeability and elevating pro-inflammatory cytokines including IL-1β, TNF-α, and IL-6.
How do microplastics affect the composition and function of gut microbiota?
Researchers reviewed how microplastics may disrupt gut microbiota composition and metabolic function, noting that while dysbiosis is a likely outcome of exposure, the full scope of these effects in humans remains understudied.
Microplastics and their interactions with microbiota
This review examines how microplastics interact with microbiota (the communities of microorganisms in the environment and in living bodies). Microplastics can carry harmful bacteria and disrupt the natural balance of microbial communities in soil, water, and the human gut. The disruption of gut microbiota by microplastics is particularly concerning because a healthy gut microbiome is essential for immune function, digestion, and overall health.
Microbial risks associated with microplastics in the food chain and possible control measures (literature review). Part 1. Dietary intake and influence on the gut microbiota
This review summarizes evidence that microplastics commonly found in food and drinking water can disrupt the human gut microbiome when ingested. Studies show that microplastics alter the composition and function of intestinal bacteria, potentially affecting digestion, immunity, and overall health. Since a healthy gut microbiome is essential for human wellbeing, this pathway of harm deserves attention alongside other known risks of microplastic exposure.
The ant that may well destroy a whole dam: a systematic review of the health implication of nanoplastics/microplastics through gut microbiota
This systematic review summarizes existing research on how nanoplastics and microplastics disrupt gut bacteria in various organisms. The findings show that plastic particle exposure consistently alters gut microbiome composition, which in turn affects the host's immune function, metabolism, and overall health. These gut bacteria changes may be a key pathway through which microplastics harm human health.
How do microplastics affect the composition and function of gut microbiota?
Researchers reviewed how microplastics may disrupt gut microbiota composition and metabolic function, noting that while dysbiosis is a likely outcome of exposure, the full extent of these effects in humans remains poorly characterized and understudied.
Toxicological Evaluation of Effects of Some Environmental Pollutants on Intestinal Microbiota: Traditional Review
This review examines how various environmental pollutants affect the gut microbiome — the community of microorganisms in the intestinal tract. Microplastics are among the pollutants discussed, and their ability to alter gut microbiota composition is increasingly recognized as a mechanism by which plastic particles may harm human and animal health.
Microplastic: A potential threat to human and animal health by interfering with the intestinal barrier function and changing the intestinal microenvironment
This review summarizes current research on how microplastics disrupt the gut environment in both animals and humans, focusing on damage to the intestinal barrier. Studies show that microplastic exposure can cause oxidative damage, inflammation, destruction of the gut lining, thinning of the protective mucus layer, and disruption of beneficial gut bacteria. While direct human evidence is still limited, the growing body of animal research suggests that microplastics could pose a meaningful threat to intestinal health.
Perturbation of gut microbiota plays an important role in micro/nanoplastics-induced gut barrier dysfunction
Researchers investigated how micro- and nanoplastics disrupt gut barrier function in mice, finding that different surface chemistries caused varying levels of damage. The study suggests that these plastic particles harm the gut by altering the gut microbiome, which then leads to inflammation and weakening of the intestinal barrier that normally keeps harmful substances out of the body.
Mechanistic insight of neurodegeneration due to micro/nano-plastic-induced gut dysbiosis.
This review provided mechanistic insight into how micro/nano-plastic-induced gut dysbiosis drives neurodegeneration, tracing a pathway from intestinal microbiome disruption to neuroinflammation and brain damage. It identified the gut-brain axis as the critical link between plastic particle exposure and progressive neurodegenerative conditions.
Immunotoxicity and intestinal effects of nano- and microplastics: a review of the literature
This review examines the evidence on how nano- and microplastics affect the immune system and intestinal health. The findings suggest that exposure to these particles can disrupt the gut microbiome and impair critical intestinal barrier functions, potentially contributing to the development of chronic inflammatory and immune conditions.