Affiliation:
1. Department of Obstetrics and Gynaecology North Bristol NHS Trust Bristol UK
2. Translational Health Sciences, Bristol Medical School University of Bristol Bristol UK
3. Population Health Sciences, Bristol Medical School University of Bristol Bristol UK
4. Faculty of Health Sciences, Bristol Medical School University of Bristol Bristol UK
5. Library and Knowledge Service North Bristol NHS Trust Bristol UK
6. Research and Development North Bristol NHS Trust Bristol UK
Abstract
AbstractBackgroundMicroplastics, produced through degradation of environmental plastic pollution, have been detected in human tissues including placenta and fetal meconium. Cell culture and animal studies have demonstrated potential reproductive toxicity of these particles; however, their association with adverse fertility or pregnancy outcomes in humans is not known.ObjectivesTo synthesise evidence for the presence of microplastics in human reproductive tissue and their associations with environmental exposures and reproductive outcomes.Search StrategyMEDLINE, Embase, Emcare, CINAHL, ClinicalTrials.gov and ICTRP were searched from inception to 03/02/2023.Selection CriteriaStudies of human participants, assessing presence of microplastics in reproductive tissues, environmental exposures to microplastics, and fertility‐ or pregnancy‐related outcomes.Data Collection and AnalysisTwo independent reviewers selected studies and extracted data on study characteristics, microplastics detected, environmental exposures and reproductive outcomes. Narrative synthesis was performed due to methodological heterogeneity.Main ResultsOf 1094 citations, seven studies were included, covering 96 participants. Microplastics composed of 16 different polymer types were detected in both placental and meconium samples. Two studies reported associations between lifestyle factors (daily water intake, use of scrub cleanser or toothpaste, bottled water and takeaway food) and placental microplastics. One study reported associations between meconium microplastics and reduced microbiota diversity. One reported placental microplastic levels correlated with reduced birthweights and 1‐minute Apgar scores.ConclusionsThere is a need for high‐quality observational studies to assess the effects of microplastics on human reproductive health.
Subject
Obstetrics and Gynecology