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61,005 resultsShowing papers similar to Image 2_Invisible invaders: unveiling the carcinogenic threat of microplastics and nanoplastics in colorectal cancer-a systematic review.png
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This systematic review examines the potential link between microplastics and colorectal cancer. It found that humans ingest over 70,000 microplastic particles annually, and that higher concentrations of micro- and nanoplastics have been observed in colorectal tumor tissues compared to healthy tissue, suggesting a possible connection worth further investigation.
Image 1_Invisible invaders: unveiling the carcinogenic threat of microplastics and nanoplastics in colorectal cancer-a systematic review.png
This systematic review examines the potential link between microplastics and colorectal cancer. It found that humans ingest over 70,000 microplastic particles annually, and that higher concentrations of micro- and nanoplastics have been observed in colorectal tumor tissues compared to healthy tissue, suggesting a possible connection worth further investigation.
Invisible invaders: unveiling the carcinogenic threat of microplastics and nanoplastics in colorectal cancer-a systematic review
This systematic review examines the potential link between microplastics and nanoplastics and colorectal cancer. The research highlights how these tiny particles may contribute to cancer development through mechanisms like chronic inflammation and cellular damage in the gut. While more studies are needed, the findings raise important questions about the long-term consequences of ingesting plastic particles.
The clinical relevance of microplastic exposure on colorectal cancer: A systematic review
This systematic review of four studies found that microplastic accumulation in colorectal cancer tissue (25.9-32.2 particles/g) was significantly higher than in healthy controls, with polyamide, polycarbonate, and polypropylene as the most common polymers detected. While a causal relationship has not been established, the evidence points to microplastics as a potential environmental factor in colorectal cancer development.
Microplastics and Colorectal Cancer: Presence in Human Colorectal Tissues and Associations with Tumor Biology- A Systematic Review
This review of 13 studies found that tiny plastic particles called microplastics are present in human colon tissues, with higher amounts found in cancerous tumors compared to healthy tissue. The research suggests these plastic particles may contribute to colon cancer development by causing inflammation and creating conditions that help tumors grow. While more research is needed to prove a direct cause-and-effect relationship, this highlights growing concerns about how plastic pollution in our environment and food supply might affect human health.
Orally Ingested Micro- and Nano-Plastics: A Hidden Driver of Inflammatory Bowel Disease and Colorectal Cancer.
This review synthesizes evidence linking ingested micro- and nano-plastics to inflammatory bowel disease and colorectal cancer risk, proposing that microplastics act as a hidden driver of gut inflammation in vulnerable populations. The authors argue that intestinal accumulation of microplastics triggers immune and oxidative stress pathways that contribute to disease progression.
Microplastics and Cancer: A Comprehensive Review of Their Impact on Tumor Progression and Mechanisms of Carcinogenesis
This comprehensive review examines the growing body of evidence linking microplastic exposure to various types of cancer, including colorectal, lung, liver, and breast cancers. Researchers found that microplastics and nanoplastics may promote tumor progression through mechanisms including oxidative stress, chronic inflammation, and disruption of cellular signaling pathways. While the evidence is still emerging, the study highlights the need for further research into the potential cancer-related risks of widespread microplastic exposure.
Identification and analysis of microplastics in peritumoral and tumor tissues of colorectal cancer
Researchers examined tumor and surrounding tissue from colorectal cancer patients and found a diverse range of microplastics, including PVC and polyethylene, with tumor tissues containing a greater variety and higher distribution of microplastics than adjacent healthy tissue. A protein called clathrin that helps cells absorb materials was highly active in the cancer tissue, suggesting it may facilitate microplastic uptake and pointing to a potential link between microplastic exposure and colorectal cancer development.
Microplastic Exposure and Its Dual Impact on Metabolic Syndrome and Pathways of Colorectal Carcinogenesis: A Systematic Review of Epidemiological, Experimental, and Mechanistic Evidence
This systematic review examines evidence linking microplastic exposure to both metabolic syndrome and colorectal cancer pathways. It found a biologically plausible connection between microplastic exposure and these conditions, though a direct clinical link to cancer has not yet been established.
The Relationship Between Microplastics and Nanoplastics with Cancer: An Emerging Health Concern
This review explores the emerging relationship between micro- and nanoplastic exposure and cancer risk in humans. Researchers summarized evidence suggesting that microplastics can carry carcinogenic substances and may trigger inflammatory and oxidative stress pathways linked to tumor development. The study highlights that while early evidence raises concern, more research is needed to establish clear causal connections between plastic particle exposure and specific cancer types.
Microplastics and the Rising Tide of Early‐Onset Colorectal Cancer: Exploring the Environmental Gut Connection
This paper explores the potential connection between microplastic exposure and the rising rates of early-onset colorectal cancer. The study discusses how microplastics may interact with the gut environment, suggesting that further research is needed to understand whether environmental microplastic contamination could be contributing to this emerging health trend.
Could Microplastics Be a Driver for Early Onset Colorectal Cancer?
This paper explores whether microplastics could be contributing to the rising rates of colorectal cancer in people under 50. The timing of this increase lines up with the mass production of plastics starting in the 1950s, and microplastics are known to disrupt the gut lining and interact with gut bacteria in ways that could promote cancer. While not proven, the authors argue this connection deserves urgent research given how much plastic humans now ingest.
Microscopic menace: exploring the link between microplastics and cancer pathogenesis
This review examines the growing evidence linking microplastic exposure to cancer development in humans. Microplastics can accumulate in the body and trigger inflammation, oxidative stress, and other biological changes associated with tumor growth. While more clinical research is needed, the review highlights that microplastics should be taken seriously as a potential factor in cancer risk.
Associations between microplastics in human feces and colorectal cancer risk
In a study of 258 colorectal cancer patients and 493 healthy controls, researchers found significantly higher levels of microplastics in the stool of cancer patients, with those in the highest exposure group having 11 times the odds of colorectal cancer. This is one of the first studies in humans to provide epidemiological evidence of a potential link between microplastic exposure and cancer risk, though more research is needed to determine if the relationship is causal.
Impact of micro- and nanoplastics on gastrointestinal diseases: Recent advances
This review summarizes how micro- and nanoplastics can harm the digestive system by causing oxidative stress, inflammation, cell death, and disruption of gut bacteria. These connected pathways can damage the intestinal lining and may contribute to conditions like inflammatory bowel disease and colorectal cancer. The findings highlight the importance of understanding how everyday plastic exposure through food and water could affect gut health over time.
Detection of microplastics in human colectomy specimens
Researchers examined tissue samples from patients who had colon surgery and detected microplastics in the specimens. The findings suggest that microplastics are commonly present in the human colon, adding to a growing body of evidence that these particles accumulate in the human digestive system.
From Exposure to Oncogenesis: the Role of Microplastics and Associated Pollutants in Cancer - a Literature Review
This literature review examined the growing evidence linking microplastic exposure to cancer development. Microplastics have been found in human lung, liver, and colon tissue, and research suggests they may promote cancer through chronic inflammation, oxidative stress, and by carrying known carcinogens like heavy metals and persistent organic pollutants into the body.
Microplastics as emerging carcinogens: from environmental pollutants to oncogenic drivers
This review examines growing evidence that microplastics and nanoplastics may play a role in cancer development, with these particles found in human tumor tissues from the lungs, colon, stomach, breast, and other organs. The particles appear to promote cancer through chronic inflammation, oxidative stress, DNA damage, and disruption of key cancer-related signaling pathways. While direct proof of causation in humans is still lacking, the accumulating evidence from lab studies, animal experiments, and human tissue analysis suggests microplastics deserve serious attention as potential contributors to cancer risk.
Microplastics: an often-overlooked issue in the transition from chronic inflammation to cancer
This review explores how microplastics that accumulate in the human body may trigger long-lasting inflammation, which is a known driver of cancer development. The authors describe how microplastics can disrupt the gut microbiome, activate immune responses, and alter signaling pathways in ways that could promote tumor growth over time.
Effects of microplastics on chemo-resistance and tumorigenesis of colorectal cancer
For the first time, researchers confirmed the presence of microplastics in human colorectal cancer tissue and showed in animal models that microplastics increased cancer rates and made tumors more resistant to chemotherapy drugs. The study found that microplastics trigger a cell survival mechanism called autophagy that helps cancer cells resist treatment, suggesting plastic pollution could complicate cancer outcomes.
Comparative Analysis of Physical and Polymer Characteristics of Microplastics Detected in Human Colorectal Cancer Samples From the United States and Malaysia
Researchers compared the physical and chemical characteristics of microplastics found in colorectal cancer tissue samples from patients in the United States and Malaysia. Microplastics were detected in samples from both populations, with some similarities in polymer types but also distinct differences in particle size and shape between the two groups. The study adds to growing evidence that microplastics accumulate in human tissues, though more research is needed to understand any potential health implications.
Microplastic Contamination: A Rising Environmental Crisis With Potential Oncogenic Implications
This review examines how microplastics detected in human tissues — blood, placenta, and organs — may act as vectors for carcinogens, including adsorbed heavy metals and persistent organic pollutants, and discusses emerging evidence linking MP accumulation to oncogenic processes.
A Comprehensive Narrative Review of Potential Gastrointestinal Adverse Effects From Micro(nano) Plastic Exposure
This narrative review synthesizes evidence on gastrointestinal adverse effects of micro- and nanoplastic exposure, examining how these particles interact with gut microbiota, mucosal barriers, and immune tissue to contribute to inflammatory bowel disease, liver disease, and colorectal cancer risk.
Plastic pollution-Microplastics: Cancer related issues
This review examines how microplastics may contribute to cancer risk, summarizing evidence that ingested microplastics can cross the gut epithelium, accumulate in tissues, induce oxidative stress and inflammation, and carry carcinogenic chemical additives.