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20 resultsShowing papers similar to An Emerging Role of Micro- and Nanoplastics in Vascular Diseases
ClearMicro- and nanoplastics: A new cardiovascular risk factor?
This review examines the growing evidence that micro- and nanoplastics may pose risks to the heart and blood vessels. Studies in animals and cell cultures show that these tiny plastic particles can enter the bloodstream, trigger inflammation, promote blood clotting, and damage blood vessel walls. While human data is still limited, the review suggests that micro- and nanoplastic exposure should be considered a potential new risk factor for cardiovascular disease.
Microplastics and nanoplastics: emerging threats to cardiovascular health – a comprehensive review
This comprehensive review examines the emerging evidence linking microplastic and nanoplastic exposure to cardiovascular health problems. The evidence suggests that plastic particles may contribute to heart and blood vessel disease, though more research is needed to fully understand the long-term effects. The review highlights the urgent need for further studies on how chronic exposure to these tiny particles affects the cardiovascular system.
Emerging cardiovascular risks of micro- and nanoplastics: toxic effects and mechanistic pathways
Tiny plastic particles called micro- and nanoplastics are getting into our bodies through food, air, and skin contact, and researchers have found them building up in people's hearts and blood vessels. This review of existing studies shows these plastic bits may contribute to heart disease by causing inflammation and damaging cells in the cardiovascular system. While more research is needed, this suggests that plastic pollution isn't just an environmental problem—it could be directly harming our heart health.
Micro-nanoplastics and cardiovascular diseases: evidence and perspectives
Growing evidence suggests that micro- and nanoplastic particles may be a previously unrecognized risk factor for heart disease, as they have been detected in atherosclerotic plaques, heart tissue, and blood clots in humans. Lab studies show these particles can trigger oxidative stress, promote blood clotting, and cause inflammation in blood vessel cells, and their presence in artery plaques has been linked to higher rates of cardiovascular events.
Micro and Nano-plastic particles: What are they and do they effect cardiovascular health?
This review examines the cardiovascular health effects of micro- and nanoplastics, summarizing evidence that these particles have been detected in human tissues including arterial plaques and may promote endothelial dysfunction and inflammation. The authors call for further clinical and epidemiological research into cardiac risk.
Evidence, Mechanisms, and Clinical Implications of Microplastics and Nanoplastics As Emerging Cardiovascular Risk Factors: A Narrative Review
This review examines growing evidence that micro- and nanoplastics may contribute to cardiovascular health risks, with researchers having found these particles in human artery plaques and blood clots. Evidence indicates that the particles can enter the bloodstream, trigger inflammation, damage blood vessel walls, and potentially increase the risk of heart attacks and strokes. While the evidence is not yet conclusive, the study highlights an emerging area of concern that warrants further investigation into how everyday plastic exposure may affect heart and blood vessel health.
Microplastics and Nanoplastics
Researchers examined the connection between microplastics and nanoplastics and cardiovascular disease, a group of conditions affecting the heart and blood vessels. Growing evidence suggests these tiny plastic particles may pose risks to heart and vascular health.
Microplastics, Nanoplastics and Heart Contamination: The Hidden Threat
This review examines growing evidence that micro- and nanoplastics can accumulate in human cardiovascular tissues, including blood, heart muscle, and arterial plaques. Researchers found that these particles may contribute to heart and blood vessel problems through inflammation, oxidative stress, blood clotting, and direct tissue injury. The study identifies plastic particles as a potential new environmental risk factor for cardiovascular health.
Cardiotoxicity of Microplastics: An Emerging Cardiovascular Risk Factor
This review examines emerging evidence that microplastics may pose risks to cardiovascular health, summarizing findings from laboratory and animal studies. Researchers found that microplastic exposure has been linked to inflammation, oxidative stress, and disrupted heart function in experimental settings. Given that cardiovascular disease is already the leading cause of death globally, the study suggests that microplastics as a potential contributing factor warrant urgent further investigation.
Micro- and nanoplastics in the cardiovascular system: current evidence, research gaps: a systematic review
This systematic review examined how microplastics and nanoplastics affect the heart and blood vessels. Studies in both animals and human tissue found that these particles can cause blood vessel inflammation, disrupt heart function, and were even linked to higher rates of heart attack and stroke in people with plastic particles in their arteries.
From Environment to Endothelium: The Role of Microplastics in Vascular Aging
This review examines how microplastics may contribute to vascular aging and cardiovascular problems. Evidence indicates that once microplastics enter the body through ingestion, inhalation, or skin contact, they can reach blood vessels and trigger oxidative stress, inflammation, and damage to the cells lining blood vessel walls. The findings suggest that chronic microplastic exposure could be an underappreciated factor in the development of age-related cardiovascular issues.
Microplastics and Atherosclerosis: Mechanisms
This review examines the emerging evidence linking micro- and nanoplastic exposure to atherosclerosis, the buildup of plaques in blood vessel walls. Researchers found that these particles can enter the body through ingestion, inhalation, or skin contact and may promote cardiovascular damage through inflammation, oxidative stress, and immune activation. While direct causation has not been established, the study highlights the need for further research into how plastic pollution may affect heart and blood vessel health.
Microplastics. a New Risk Factor for Atherosclerotic Cardiovascular Disease
This paper reviews emerging evidence linking microplastic exposure to atherosclerotic cardiovascular disease, noting that MPs have been detected in arterial plaques and human tissues and may contribute to cardiovascular risk through inflammation, oxidative stress, and endothelial disruption.
Micro-nanoplastic induced cardiovascular disease and dysfunction: a scoping review
Researchers reviewed evidence from animal and human studies on how micro- and nanoplastics (MNPs) affect the heart and blood vessels, finding that MNPs can damage the inner lining of blood vessels, promote plaque buildup, and interfere with blood clotting — all of which raise the risk of heart disease. The review calls for more research to understand how much MNP accumulation occurs in the human cardiovascular system and what it means for long-term cardiac health.
Impact of microplastics and nanoplastics on cardiovascular health
This review examines the emerging evidence on how microplastics and nanoplastics may affect cardiovascular health. The study discusses clinical evidence suggesting that these particles can accumulate in the cardiovascular system and highlights possible molecular mechanisms including inflammation and oxidative stress, while noting that current evidence linking microplastics to cardiovascular disease remains largely correlative.
Nanoplastics as emerging cardiovascular hazards: a narrative review of current evidence
This review examines the emerging evidence that nanoplastics may pose risks to cardiovascular health. Researchers summarized studies showing that nanoplastics can enter the bloodstream through ingestion, inhalation, and skin contact, potentially causing inflammation and oxidative damage to blood vessels and heart tissue. The study suggests that nanoplastic exposure represents an understudied but potentially significant environmental risk factor for heart and vascular problems.
Micro- and nanoplastics are elevated in femoral atherosclerotic plaques compared with undiseased arteries
Researchers found significantly higher concentrations of microplastics and nanoplastics in diseased arterial plaques from human patients with limb-threatening vascular disease compared to healthy arteries, adding to growing evidence that these particles accumulate in cardiovascular tissue and may play a role in artery disease.
Insights into the toxicological effects of nanomaterials on atherosclerosis: mechanisms involved and influence factors
Researchers reviewed how nanomaterials — tiny engineered particles including nanoplastics — can trigger or worsen atherosclerosis, the buildup of fatty plaques in arteries that leads to heart attacks and strokes. The review found that nanomaterials can damage the cells lining blood vessels and provoke chronic inflammation, raising concerns about the cardiovascular risks of widespread nanomaterial exposure.
Emerging Links Between Cardiovascular Disease and Microplastics Exposure – A Narrative Review
This review of existing research shows that tiny plastic particles called microplastics may be linked to heart disease - scientists have even found these particles inside the fatty buildups that clog arteries. When microplastics get into our bodies through food, water, and air, they appear to cause inflammation and damage blood vessels, which could increase the risk of heart attacks and strokes. People who eat lots of seafood, drink bottled water frequently, or work in certain industries may face higher exposure to these harmful plastic particles.
Micro- and Nanoplastics as a Potential Risk Factor for Stroke: A Systematic Review
This systematic review assessed the potential link between micro- and nanoplastics and stroke risk. It found that plastic particles have been detected in human blood vessels and arterial plaques, and may contribute to inflammation and blood vessel damage — factors that could increase the risk of stroke.