The relationship between emerging contaminants and gestational diabetes mellitus: a review

Ying Wei; Xiong Zou; Wenqi Wang; Zhuoqi Zhu; Yang Peng; Min Liu; Han Li

doi:10.20517/jeea.2025.43

Journal of Environmental Exposure Assessment ›› 2025, Vol. 4 ›› Issue (3) :29 DOI: 10.20517/jeea.2025.43

Review

The relationship between emerging contaminants and gestational diabetes mellitus: a review

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Abstract

Emerging contaminants (ECs) have garnered growing attention as potential contributors to adverse metabolic outcomes during pregnancy, particularly gestational diabetes mellitus (GDM). Despite increasing recognition of their endocrine-disrupting capabilities, the precise relationship between EC exposure and glucose dysregulation in the gestational context remains inadequately characterized. The scarcity of longitudinal human studies, along with limited mechanistic elucidation, highlights a critical gap in understanding how these ubiquitous environmental pollutants may perturb maternal metabolic homeostasis. This review consolidates current epidemiological evidence linking key classes of ECs, including per- and polyfluoroalkyl substances (PFAS), polychlorinated biphenyls (PCBs), phthalates (PAEs), bisphenols, organochlorine pesticides (OCPs), parabens, and alkylphenols, with GDM risk and impaired glycemic control. Parallel examination of in vivo and in vitro studies reveals plausible biological mechanisms, including oxidative stress, mitochondrial dysfunction, inflammatory signaling, and insulin resistance (IR), through which these compounds may mediate their effects. By integrating data across human and experimental research domains, this review underscores the urgent need for high-resolution exposure assessments, mixture toxicity frameworks, and mechanistic validation. Such insight is essential for advancing etiological understanding, informing regulatory action, and guiding preventive strategies to mitigate the impact of environmental exposures on maternal-fetal metabolic health.

Keywords

Gestational diabetes mellitus / emerging contaminants / human exposure / glucose metabolism / mechanisms

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Ying Wei, Xiong Zou, Wenqi Wang, Zhuoqi Zhu, Yang Peng, Min Liu, Han Li. The relationship between emerging contaminants and gestational diabetes mellitus: a review. Journal of Environmental Exposure Assessment, 2025, 4(3): 29 DOI:10.20517/jeea.2025.43

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References

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[1]	Diabetes Association Professional Practice Committee. 2. Diagnosis and classification of diabetes: standards of care in diabetes-2025.Diabetes Care2025;48:S27-49 PMCID:PMC11635041

[2]	International Diabetes Federation; Brussels, Belgium IDF Diabetes Atlas, 11th Ed. Available from: https://diabetesatlas.org (accessed on 2025-9-9)

[3]	Tuomi T,Caprio S,Weng J.The many faces of diabetes: a disease with increasing heterogeneity.Lancet2014;383:1084-94

[4]	Lind PM.Endocrine-disrupting chemicals and risk of diabetes: an evidence-based review.Diabetologia2018;61:1495-502 PMCID:PMC6445457

[5]	Yang A,Wong KK.Epidemic-specific association of maternal exposure to per- and polyfluoroalkyl substances (PFAS) and their components with maternal glucose metabolism: a cross-sectional analysis in a birth cohort from Hong Kong.Sci Total Environ2024;917:170220

[6]	Ma J,Qian L.Serum levels of polychlorinated biphenyls and polybrominated diphenyl ethers in early pregnancy and their associations with gestational diabetes mellitus.Chemosphere2023;339:139640

[7]	Peng MQ,Adgate JL.Associations of urinary biomarkers of phthalates, phenols, parabens, and organophosphate esters with glycemic traits in pregnancy: the healthy start study.Environ Res2024;262:119810 PMCID:PMC11568925

[8]	Soomro MH,Reardon AJF.APrON Study TeamMaternal exposure to bisphenols, phthalates, perfluoroalkyl acids, and trace elements and their associations with gestational diabetes mellitus in the APrON cohort.Reprod Toxicol2024;127:108612

[9]	Rahman ML,Smarr MM.Persistent organic pollutants and gestational diabetes: a multi-center prospective cohort study of healthy US women.Environ Int2019;124:249-58

[10]	Peterson AK,Feng J.Urinary concentrations of early and mid-pregnancy parabens and gestational diabetes: A nested case-control study within the PETALS cohort.Sci Total Environ2025;974:179253 PMCID:PMC11998988

[11]	Pang L,Wu Y.Exposure to alkylphenols during early pregnancy and the risk of gestational diabetes mellitus: fetal sex-specific effects.Ecotoxicol Environ Saf2024;287:117270

[12]	Murnyak G,Yaroschak PJ,Prabhakaran K.Emerging contaminants: presentations at the 2009 Toxicology and Risk Assessment Conference.Toxicol Appl Pharmacol2011;254:167-9

[13]	Puri M,Kumar MS.Emerging environmental contaminants: a global perspective on policies and regulations.J Environ Manage2023;332:117344

[14]	Niu H,Tu P.Emerging contaminants: an emerging risk factor for diabetes mellitus.Toxics2024;12:47 PMCID:PMC10819641

[15]	Ouda M,Swaidan B.Emerging contaminants in the water bodies of the Middle East and North Africa (MENA): a critical review.Sci Total Environ2021;754:142177

[16]	Agency for Toxic Substances and Disease Registry (ATSDR). Toxicological Profile for Perfluoroalkyls. Atlanta(GA): Agency for Toxic Substances and Disease Registry (US); 2021.

[17]	Gaines LGT.Historical and current usage of per- and polyfluoroalkyl substances (PFAS): a literature review.Am J Ind Med2023;66:353-78

[18]	O’Hagan D.Understanding organofluorine chemistry. an introduction to the C-F bond.Chem Soc Rev2008;37:308-19

[19]	Domingo JL.Per- and polyfluoroalkyl substances (PFASs) in food and human dietary intake: a review of the recent scientific literature.J Agric Food Chem2017;65:533-43

[20]	Stein CR,Calafat AM,Engel SM.Comparison of polyfluoroalkyl compound concentrations in maternal serum and amniotic fluid: a pilot study.Reprod Toxicol2012;34:312-6 PMCID:PMC3432718

[21]	Wang Y,Vestergren R,Liang Y.Using hair, nail and urine samples for human exposure assessment of legacy and emerging per- and polyfluoroalkyl substances.Sci Total Environ2018;636:383-91

[22]	Domingo JL.Human exposure to per- and polyfluoroalkyl substances (PFAS) through drinking water: a review of the recent scientific literature.Environ Res2019;177:108648

[23]	Li J,Xia W.Association between exposure to per- and polyfluoroalkyl substances and blood glucose in pregnant women.Int J Hyg Environ Health2020;230:113596

[24]	Wang Y,Teng Y.Association of serum levels of perfluoroalkyl substances with gestational diabetes mellitus and postpartum blood glucose.J Environ Sci (China)2018;69:5-11

[25]	Xu H,Zhang J.Exposure to elevated per- and polyfluoroalkyl substances in early pregnancy is related to increased risk of gestational diabetes mellitus: a nested case-control study in Shanghai, China.Environ Int2020;143:105952

[26]	Liu X,Chen L.Identification and prioritization of the potent components for combined exposure of multiple persistent organic pollutants associated with gestational diabetes mellitus.J Hazard Mater2021;409:124905

[27]	Xu C,Zhou Q.Exposure to per- and polyfluoroalkyl substances as a risk factor for gestational diabetes mellitus through interference with glucose homeostasis.Sci Total Environ2022;838:156561

[28]	Peterson AK,Fuller S.PFAS concentrations in early and mid-pregnancy and risk of gestational diabetes mellitus in a nested case-control study within the ethnically and racially diverse PETALS cohort.BMC Pregnancy Childbirth2023;23:657 PMCID:PMC10500777

[29]	Zang L,Xie X,Pan Y.Exposure to per- and polyfluoroalkyl substances in early pregnancy, risk of gestational diabetes mellitus, potential pathways, and influencing factors in pregnant women: a nested case-control study.Environ Pollut2023;326:121504

[30]	Zhang Y,Gao Y.Human serum poly- and perfluoroalkyl substance concentrations and their associations with gestational diabetes mellitus.Environ Pollut2023;317:120833

[31]	Zhang C,Maisog J,Barr DB.A prospective study of prepregnancy serum concentrations of perfluorochemicals and the risk of gestational diabetes.Fertil Steril2015;103:184-9 PMCID:PMC4282598

[32]	Shapiro GD,Arbuckle TE.Exposure to organophosphorus and organochlorine pesticides, perfluoroalkyl substances, and polychlorinated biphenyls in pregnancy and the association with impaired glucose tolerance and gestational diabetes mellitus: the MIREC study.Environ Res2016;147:71-81

[33]	Matilla-Santander N,Lopez-Espinosa MJ.Exposure to perfluoroalkyl substances and metabolic outcomes in pregnant women: evidence from the Spanish INMA birth cohorts.Environ Health Perspect2017;125:117004

[34]	Starling AP,Hamman RF.Perfluoroalkyl substances during pregnancy and offspring weight and adiposity at birth: examining mediation by maternal fasting glucose in the healthy start study.Environ Health Perspect2017;125:067016

[35]	Valvi D,Weihe P.Gestational diabetes and offspring birth size at elevated environmental pollutant exposures.Environ Int2017;107:205-15 PMCID:PMC5584560

[36]	Jensen RC,Timmermann CAG.Perfluoroalkyl substances and glycemic status in pregnant Danish women: the Odense child cohort.Environ Int2018;116:101-7

[37]	Wang H,Du H.Perfluoroalkyl substances, glucose homeostasis, and gestational diabetes mellitus in Chinese pregnant women: a repeat measurement-based prospective study.Environ Int2018;114:12-20

[38]	Preston EV,Hivert MF.Associations of per- and polyfluoroalkyl substances (PFAS) with glucose tolerance during pregnancy in project viva.J Clin Endocrinol Metab2020;105:e2864-76 PMCID:PMC7320827

[39]	Ren Y,Yang F.Concentrations of perfluoroalkyl and polyfluoroalkyl substances and blood glucose in pregnant women.Environ Health2020;19:88 PMCID:PMC7433207

[40]	Mehta SS,Applebaum KM.Persistent organic pollutants and maternal glycemic outcomes in a diverse pregnancy cohort of overweight women.Environ Res2021;193:110551 PMCID:PMC7855882

[41]	Vuong AM,Sjödin A.Exposure to endocrine disrupting chemicals (EDCs) and cardiometabolic indices during pregnancy: the HOME study.Environ Int2021;156:106747 PMCID:PMC8393591

[42]	Yu G,Huang Y.Shanghai Birth Cohort StudyEnvironmental exposure to perfluoroalkyl substances in early pregnancy, maternal glucose homeostasis and the risk of gestational diabetes: a prospective cohort study.Environ Int2021;156:106621

[43]	Wang Z,Zhang Y.Shanghai Birth CohortHigh maternal glucose exacerbates the association between prenatal per- and polyfluoroalkyl substance exposure and reduced birth weight.Sci Total Environ2023;858:160130

[44]	Cinzori ME,Rosas L.Associations of per- and polyfluoroalkyl substances with maternal metabolic and inflammatory biomarkers in early-to-mid-pregnancy.Environ Res2024;250:118434 PMCID:PMC11102845

[45]	Qin W,Zhao L.Exposure to perfluorooctane sulfonate reduced cell viability and insulin release capacity of β cells.J Environ Sci (China)2022;115:162-72

[46]	Zheng F,Zhang H,Zhang J.Perfluorooctanoic acid exposure disturbs glucose metabolism in mouse liver.Toxicol Appl Pharmacol2017;335:41-8

[47]	Wan HT,Leung PY.Perinatal exposure to perfluorooctane sulfonate affects glucose metabolism in adult offspring.PLoS One2014;9:e87137 PMCID:PMC3909066

[48]	Yu G,Liu Y.Metabolic perturbations in pregnant rats exposed to low-dose perfluorooctanesulfonic acid: an integrated multi-omics analysis.Environ Int2023;173:107851

[49]	Yu G,Liu Y.Multi-omics reveal disturbance of glucose homeostasis in pregnant rats exposed to short-chain perfluorobutanesulfonic acid.Ecotoxicol Environ Saf2024;278:116402

[50]	Agency for Toxic Substances and Disease Registry (ATSDR). Toxicological Profile for Polychlorinated Biphenyls (PCBs). Atlanta(GA): Agency for Toxic Substances and Disease Registry (US); 2000.

[51]	Liu J,Liu J.Recent progress on toxicity and detection methods of polychlorinated biphenyls in environment and foodstuffs.Crit Rev Anal Chem2023;53:928-53

[52]	Us Epa, O. EPA Bans PCB Manufacture; Phases out Uses. Available from: https://www.epa.gov/archive/epa/aboutepa/epa-bans-pcb-manufacture-phases-out-uses.html (accessed on 2025-9-9).

[53]	Zhu M,Yin H.Environmental contamination and human exposure of polychlorinated biphenyls (PCBs) in China: a review.Sci Total Environ2022;805:150270

[54]	Christensen K,Lehmann GM.The role of epidemiology studies in human health risk assessment of polychlorinated biphenyls.Environ Res2021;194:110662 PMCID:PMC7946752

[55]	Neblett MF 2nd,Gerkowicz SA.Examining reproductive health outcomes in females exposed to polychlorinated biphenyl and polybrominated biphenyl.Sci Rep2020;10:3314 PMCID:PMC7039953

[56]	Zhang L,Meng G.Non-dioxin-like polychlorinated biphenyls in early pregnancy and risk of gestational diabetes mellitus.Environ Int2018;115:127-32

[57]	Eslami B,Rastkari N,Djazayeri A.Association between serum concentrations of persistent organic pollutants and gestational diabetes mellitus in primiparous women.Environ Res2016;151:706-12

[58]	Jaacks LM,Sundaram R,Zhang C.Pre-pregnancy maternal exposure to polybrominated and polychlorinated biphenyls and gestational diabetes: a prospective cohort study.Environ Health2016;15:11 PMCID:PMC4721055

[59]	Vafeiadi M,Chalkiadaki G.Persistent organic pollutants in early pregnancy and risk of gestational diabetes mellitus.Environ Int2017;98:89-95

[60]	Caron A,Peshdary V,Atlas E.Effects of PCB126 on adipose-to-muscle communication in an in vitro model.Environ Health Perspect2020;128:107002 PMCID:PMC7539676

[61]	Rice BB,Ngo Tenlep SY.Exposure to PCB126 during the nursing period reversibly impacts early-life glucose tolerance.Front Endocrinol (Lausanne)2023;14:1085958 PMCID:PMC10073482

[62]	Mariana M,Verde I.The effects of phthalates in the cardiovascular and reproductive systems: a review.Environ Int2016;94:758-76

[63]	Mariana M.The relationship between phthalates and diabetes: a review.Metabolites2023;13:746 PMCID:PMC10301313

[64]	Geyer R,Law KL.Production, use, and fate of all plastics ever made.Sci Adv2017;3:e1700782 PMCID:PMC5517107

[65]	Chang WH,Lee CC,Chen HL.The effects of phthalate ester exposure on human health: A review.Sci Total Environ2021;786:147371

[66]	Robledo CA,Stoner J.Urinary phthalate metabolite concentrations and blood glucose levels during pregnancy.Int J Hyg Environ Health2015;218:324-30 PMCID:PMC4724204

[67]	Shapiro GD,Arbuckle TE.Exposure to phthalates, bisphenol A and metals in pregnancy and the association with impaired glucose tolerance and gestational diabetes mellitus: the MIREC study.Environ Int2015;83:63-71

[68]	James-Todd TM,Huang T.Pregnancy urinary phthalate metabolite concentrations and gestational diabetes risk factors.Environ Int2016;96:118-26 PMCID:PMC5304919

[69]	James-Todd TM,Messerlian C.EARTH Study TeamTrimester-specific phthalate concentrations and glucose levels among women from a fertility clinic.Environ Health2018;17:55 PMCID:PMC6000948

[70]	Shaffer RM,Sheppard L.TIDES Study teamMaternal urinary phthalate metabolites in relation to gestational diabetes and glucose intolerance during pregnancy.Environ Int2019;123:588-96 PMCID:PMC6347428

[71]	Guo J,Gao X.Meconium exposure to phthalates, sex and thyroid hormones, birth size and pregnancy outcomes in 251 mother-infant Pairs from Shanghai.Int J Environ Res Public Health2020;17:7711 PMCID:PMC7659924

[72]	Gao H,Huang K.Effects of single and combined gestational phthalate exposure on blood pressure, blood glucose and gestational weight gain: a longitudinal analysis.Environ Int2021;155:106677

[73]	Zukin H,Holland N.Prenatal exposure to phthalates and maternal metabolic outcomes in a high-risk pregnant Latina population.Environ Res2021;194:110712 PMCID:PMC7946766

[74]	James-Todd T,Bellavia A.Urinary phthalate and DINCH metabolite concentrations and gradations of maternal glucose intolerance.Environ Int2022;161:107099 PMCID:PMC10723583

[75]	Liang QX,Fang XM,Li F.Association between phthalate exposure in pregnancy and gestational diabetes: a Chinese cross-sectional study.Int J Gen Med2022;15:179-89

[76]	Wang H,Gao Y.Serum concentrations of phthalate metabolites in pregnant women and their association with gestational diabetes mellitus and blood glucose levels.Sci Total Environ2023;857:159570

[77]	Guo M,Peng M.Prenatal exposure to polycyclic aromatic hydrocarbons and phthalate acid esters and gestational diabetes mellitus: a prospective cohort study.Int J Hyg Environ Health2024;261:114419

[78]	Chen M,Guo WH.Maternal exposure to Di-n-butyl phthalate (DBP) aggravate gestational diabetes mellitus via FoxM1 suppression by pSTAT1 signalling.Ecotoxicol Environ Saf2020;205:111154

[79]	Michałowicz J.Bisphenol A--sources, toxicity and biotransformation.Environ Toxicol Pharmacol2014;37:738-58

[80]	Sadrabad E, Hashemi SA, Nadjarzadeh A, Askari E, Akrami Mohajeri F, Ramroudi F. Bisphenol A release from food and beverage containers - a review.Food Sci Nutr2023;11:3718-28 PMCID:PMC10345686

[81]	Ehrlich S,Baccarelli A,Macaluso M.Endocrine disruptors: a potential risk factor for gestational diabetes mellitus.Am J Perinatol2016;33:1313-8

[82]	Rahmani S,Khan F,Ghafour-Boroujerdi E.Bisphenol A: what lies beneath its induced diabetes and the epigenetic modulation?.Life Sci2018;214:136-44

[83]	Buckley JP,Wong E.Ultra-processed food consumption and exposure to phthalates and bisphenols in the US National Health and Nutrition Examination Survey, 2013-2014.Environ Int2019;131:105057 PMCID:PMC6728187

[84]	Hou Y,Xia L.Associations of urinary phenolic environmental estrogens exposure with blood glucose levels and gestational diabetes mellitus in Chinese pregnant women.Sci Total Environ2021;754:142085

[85]	Zhu Y,Calafat AM.Urinary phenols in early to midpregnancy and risk of gestational diabetes mellitus: a longitudinal study in a multiracial cohort.Diabetes2022;71:2539-51 PMCID:PMC9750951

[86]	Robledo C,Stoner JA.Is bisphenol-A exposure during pregnancy associated with blood glucose levels or diagnosis of gestational diabetes?.J Toxicol Environ Health A2013;76:865-73 PMCID:PMC3801171

[87]	Chiu YH,Ford JB.for EARTH Study TeamTrimester-specific urinary bisphenol A concentrations and blood glucose levels among pregnant women from a fertility clinic.J Clin Endocrinol Metab2017;102:1350-7 PMCID:PMC5460734

[88]	Wang X,Chen Q.Urinary bisphenol a concentration and gestational diabetes mellitus in Chinese women.Epidemiology2017;28 Suppl 1:S41-7

[89]	Bellavia A,Meeker JD.Pregnancy urinary bisphenol-A concentrations and glucose levels across BMI categories.Environ Int2018;113:35-41 PMCID:PMC6583793

[90]	Fisher BG,Andersson AM.Serum phthalate and triclosan levels have opposing associations with risk factors for gestational diabetes mellitus.Front Endocrinol (Lausanne)2018;9:99 PMCID:PMC5859030

[91]	Zhang W,Liu W.Exposure to bisphenol a substitutes and gestational diabetes mellitus: a prospective cohort study in China.Front Endocrinol (Lausanne)2019;10:262 PMCID:PMC6503732

[92]	Chen WJ,Davis EM.Assessing urinary phenol and paraben mixtures in pregnant women with and without gestational diabetes mellitus: a case-control study.Environ Res2022;214:113897 PMCID:PMC9514543

[93]	Akash MSH,Rehman K.Bisphenol A-induced metabolic disorders: from exposure to mechanism of action.Environ Toxicol Pharmacol2020;77:103373

[94]	Alonso-Magdalena P,Quesada I.Bisphenol-A treatment during pregnancy in mice: a new window of susceptibility for the development of diabetes in mothers later in life.Endocrinology2015;156:1659-70

[95]	Rochester JR.Bisphenol S and F: A systematic review and comparison of the hormonal activity of bisphenol a substitutes.Environ Health Perspect2015;123:643-50 PMCID:PMC4492270

[96]	Kahn LG,Nakayama SF,Trasande L.Endocrine-disrupting chemicals: implications for human health.Lancet Diabetes Endocrinol2020;8:703-18 PMCID:PMC7437820

[97]	Agency for Toxic Substances and Disease Registry (ATSDR). Toxicological Profile for DDT, DDE, and DDD. Atlanta(GA): Agency for Toxic Substances and Disease Registry (US); 2022.

[98]	Guo W,Sakkiah S.Persistent organic pollutants in food: contamination sources, health effects and detection methods.Int J Environ Res Public Health2019;16:4361 PMCID:PMC6888492

[99]	Keswani C,Birla H.Global footprints of organochlorine pesticides: a pan-global survey.Environ Geochem Health2022;44:149-77

[100]

Saunders L,Costet N.Hypertensive disorders of pregnancy and gestational diabetes mellitus among French Caribbean women chronically exposed to chlordecone.Environ Int2014;68:171-6

[101]

Smarr MM,Zhang C.Persistent organic pollutants and pregnancy complications.Sci Total Environ2016;551-552:285-91 PMCID:PMC7751424

[102]

Nagel JE,Fireman P.Paraben allergy.JAMA1977;237:1594-5

[103]

Fransway AF,Belsito DV.Paraben toxicology.Dermatitis2019;30:32-45

[104]

Soni MG,Taylor SL.Safety assessment of propyl paraben: a review of the published literature.Food Chem Toxicol2001;39:513-32

[105]

Darbre PD.Paraben esters: review of recent studies of endocrine toxicity, absorption, esterase and human exposure, and discussion of potential human health risks.J Appl Toxicol2008;28:561-78

[106]

Bellavia A,Brown FM.EARTH Study TeamUrinary concentrations of parabens mixture and pregnancy glucose levels among women from a fertility clinic.Environ Res2019;168:389-96 PMCID:PMC7190006

[107]

Li Y,Li Y.Association between urinary parabens and gestational diabetes mellitus across prepregnancy body mass index categories.Environ Res2019;170:151-9

[108]

Liu W,Li J.Parabens exposure in early pregnancy and gestational diabetes mellitus.Environ Int2019;126:468-75

[109]

Bergé A,Gasperi J,Tassin B.Meta-analysis of environmental contamination by alkylphenols.Environ Sci Pollut Res Int2012;19:3798-819

[110]

Ying GG,Kookana R.Environmental fate of alkylphenols and alkylphenol ethoxylates--a review.Environ Int2002;28:215-26

[111]

Kovarova J,Divisova L.Alkylphenol ethoxylates and alkylphenols--update information on occurrence, fate and toxicity in aquatic environment.Pol J Vet Sci2013;16:763-72

[112]

Kang HS,Ahn C,Hong EJ.Effects of xenoestrogens on streptozotocin-induced diabetic mice.J Physiol Pharmacol2014;65:273-82

[113]

Yang J,Wang P.The adverse effects of perinatal exposure to nonylphenol on carbohydrate metabolism in male offspring rats.Int J Environ Health Res2017;27:368-76

[114]

Zhou B.Adverse outcome pathway: framework, application, and challenges in chemical risk assessment.J Environ Sci (China)2015;35:191-3

[115]

Hong Y,Lin Y.Environmental triggers and future risk of developing autoimmune diseases: Molecular mechanism and network toxicology analysis of bisphenol A.Ecotoxicol Environ Saf2024;288:117352

[116]

Ali N,Marczylo EL,Wright S.The potential impacts of micro-and-nano plastics on various organ systems in humans.EBioMedicine2024;99:104901 PMCID:PMC10749881

[117]

Hsiao HY,Shiu RF,Yen TH.Microplastic and nanoplastic exposure and risk of diabetes mellitus.World J Clin Cases2025;13:98110 PMCID:PMC11577526

[118]

Huang D,Long J.Polystyrene microplastic exposure induces insulin resistance in mice via dysbacteriosis and pro-inflammation.Sci Total Environ2022;838:155937

[119]

Rafa N,Zohora F.Microplastics as carriers of toxic pollutants: Source, transport, and toxicological effects.Environ Pollut2024;343:123190

[120]

Liu N,Feng C.Ecological risk assessment of fifty pharmaceuticals and personal care products (PPCPs) in Chinese surface waters: a proposed multiple-level system.Environ Int2020;136:105454

[121]

Preston EV,Quinn MR.Environmental Reproductive and Glucose Outcomes (ERGO) StudyAssociations of personal care product use during pregnancy and the postpartum period with markers of postpartum glycemic control - Results from the ERGO Study.Int J Hyg Environ Health2025;266:114569 PMCID:PMC12044551