Article
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Tier 2
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Original research — experimental, observational, or case-control study. Direct primary evidence.
Food & Water
Human Health Effects
Nanoplastics
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Examining the impact of nanoplastics and PFAS exposure on immune functions through inhibition of secretory immunoglobin A in human breast milk
Journal of Hazardous Materials2023
28 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 55
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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,
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,
Qingyue Wang,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Weiqian Wang
Prosper Eguono Ovuoraye,
Christian Ebere Enyoh,
Prosper Eguono Ovuoraye,
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,
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,
Christian Ebere Enyoh,
Prosper Eguono Ovuoraye,
Prosper Eguono Ovuoraye,
Prosper Eguono Ovuoraye,
Qingyue Wang,
Christian Ebere Enyoh,
Prosper Eguono Ovuoraye,
Christian Ebere Enyoh,
Qingyue Wang,
Christian Ebere Enyoh,
Weiqian Wang
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Prosper Eguono Ovuoraye,
Qingyue Wang,
Prosper Eguono Ovuoraye,
Weiqian Wang
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Qingyue Wang,
Weiqian Wang
Qingyue Wang,
Weiqian Wang
Christian Ebere Enyoh,
Weiqian Wang
Christian Ebere Enyoh,
Qingyue Wang,
Christian Ebere Enyoh,
Weiqian Wang
Weiqian Wang
Weiqian Wang
Weiqian Wang
Weiqian Wang
Qingyue Wang,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Qingyue Wang,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Weiqian Wang
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Qingyue Wang,
Qingyue Wang,
Weiqian Wang
Qingyue Wang,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Qingyue Wang,
Christian Ebere Enyoh,
Qingyue Wang,
Weiqian Wang
Weiqian Wang
Summary
Researchers used molecular simulations to study how nanoplastics and PFAS chemicals found in breast milk might interfere with secretory immunoglobulin A, a key antibody that protects infants. They found that both nanoplastics and PFAS bind to this antibody more strongly than expected, with PFAS showing a higher overall toxic burden. The study suggests that the presence of these contaminants in breast milk could potentially compromise immune protection for breastfeeding infants.
Emerging contaminants such as nanoplastics (NPs) and per- and polyfluoroalkyl substances (PFAS), have been detected in the environment and breast milk, thus exposing infants to potentially harmful chemicals during breastfeeding. Breast milk contains secretory immunoglobulin A (SIgA), an antibody that plays a vital role in disease protection and the development of the infant's immune system. This study employed molecular simulation and fractional factorial designs to assess the toxicity of NPs and PFAS on breast milk and their influence on infant immunity by inhibiting SIgA. The research found that NPs and PFAS have higher binding affinities to SIgA compared to the control compound. Polycarbonate (-10.7 kcal/mol) had the highest binding affinity among plastics, while Perfluorodecanoic acid (PFDA, - 8.0 kcal/mol) had the highest binding affinity among PFAS. The relative toxic index was higher for PFAS (2.4) than for plastics (1.9), suggesting that PFAS may pose a higher overall toxicity burden on the protein. The presence of specific combinations of NPs and PFAS in breast milk may potentially harm breastfeeding infants, although additional experimental studies are required to validate these findings. These results underscore the potential risks associated with these emerging contaminants in breast milk and their impact on infant immunity.