The Plastic Within: Microplastics Invading Human Organs and Bodily Fluids Systems
Environments2023
60 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 65
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Arti Devi,
Mominul Haque Rabin,
Arti Devi,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Qingyue Wang
Christian Ebere Enyoh,
Qingyue Wang
Qingyue Wang
Christian Ebere Enyoh,
Hirofumi Kadono,
Qingyue Wang
Qingyue Wang
Qingyue Wang
Qingyue Wang
Qingyue Wang
Qingyue Wang
Qingyue Wang
Qingyue Wang
Qingyue Wang
Qingyue Wang
Qingyue Wang
Qingyue Wang
Qingyue Wang
Qingyue Wang
Qingyue Wang
Qingyue Wang
Qingyue Wang
Qingyue Wang
Qingyue Wang
Qingyue Wang
Qingyue Wang
Qingyue Wang
Qingyue Wang
Qingyue Wang
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Arti Devi,
Arti Devi,
Hirofumi Kadono,
Arti Devi,
Arti Devi,
Qingyue Wang
Hirofumi Kadono,
Hirofumi Kadono,
Hirofumi Kadono,
Christian Ebere Enyoh,
Qingyue Wang
Hirofumi Kadono,
Hirofumi Kadono,
Hirofumi Kadono,
Qingyue Wang
Hirofumi Kadono,
Mominul Haque Rabin,
Hirofumi Kadono,
Christian Ebere Enyoh,
Hirofumi Kadono,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Hirofumi Kadono,
Qingyue Wang
Qingyue Wang
Qingyue Wang
Hirofumi Kadono,
Hirofumi Kadono,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Qingyue Wang
Hirofumi Kadono,
Qingyue Wang
Christian Ebere Enyoh,
Qingyue Wang
Qingyue Wang
Hirofumi Kadono,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Qingyue Wang
Qingyue Wang
Qingyue Wang
Qingyue Wang
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Mominul Haque Rabin,
Mominul Haque Rabin,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Qingyue Wang
Christian Ebere Enyoh,
Qingyue Wang
Summary
This review documents the presence of microplastics in human organs and body fluids including the liver, blood, heart, placenta, breast milk, lungs, and reproductive tissues. The particles enter through ingestion, inhalation, and skin contact, and may also be introduced through invasive medical procedures. The widespread distribution of microplastics throughout the body raises concerns about their potential effects on organ function and long-term health.
Microplastics (MPs), small plastic particles resulting from the degradation of larger plastic items and from primary sources such as textiles, engineered plastic pellets, etc., have become a ubiquitous environmental pollutant. As their prevalence in the natural environment grows, concerns about their potential impacts on human health have escalated. This review discusses current research findings on the presence of MPs in organs such as the liver, blood, heart, placenta, breast milk, sputum, semen, testis, and urine, while also exploring plausible mechanisms of translocation. Furthermore, the review emphasizes the importance of understanding the potential toxicological effects of MPs on various physiological processes within these organs and their broader implications for human health. This review also examines the pathways through which MPs can enter and accumulate in human organs and bodily fluids, shedding light on the intricate routes of exposure and potential health implications. It is worth noting that the invasive medical procedures may permit direct access of MPs to the bloodstream and tissues, serving as a potential contamination source. However, it is evident that a comprehensive understanding of MPs’ invasion into human organs is vital for effective mitigation strategies and the preservation of both human health and the environment.