Heavy Metals Can either Aid or Oppose the Protective Function of the Placental Barrier

BACKGROUND: In developing countries, toxic heavy metals are a threatening catastrophe to human health, particularly in the vulnerable group of pregnant mothers and their fetuses. Fortunately, the placenta can be a protective barrier to the fetuses. AIM: To explore the relationship between serum lead, cadmium and arsenic levels in pregnant mothers and their newborns, to address the placental barrier in this situation. METHODS: A cross-sectional study was conducted on 100 pregnant mothers at the time of labour and their newborns. Serum cadmium, lead, and arsenic levels were measured using the Inductively Coupled Plasma Mass Spectrometry. RESULTS: All the studied heavy metals concentrations showed a significant elevation in the maternal blood relative to the cord blood. There was a significant association between the maternal lead and both fetal lead and arsenic. Meanwhile, a negative but insignificant correlation was recorded between the maternal cadmium and each of the fetal cadmium, lead, and arsenic. CONCLUSION: The study findings indicated a weak relation between maternal and fetal blood heavy metals, except for the influence of maternal lead, so it can be assumed that the placental barriers are partially protective against those toxic pollutants, putting into consideration the influence of their different natures.

[1]  Huan-ling Yu,et al.  Trace elements profiles of maternal blood, umbilical cord blood, and placenta in Beijing, China , 2019, The journal of maternal-fetal & neonatal medicine : the official journal of the European Association of Perinatal Medicine, the Federation of Asia and Oceania Perinatal Societies, the International Society of Perinatal Obstetricians.

[2]  M. Shehata,et al.  Relation of Heavy Metals in Cord and Maternal Blood to Neonatal Anthropometric Indices , 2019, JOURNAL OF CLINICAL AND DIAGNOSTIC RESEARCH.

[3]  Amira S Ahmed,et al.  Mercury Materno-fetal Burden and Its Nutritional Impact , 2018, Open access Macedonian journal of medical sciences.

[4]  P. Sreenivasula Reddy,et al.  Arsenic aggravated reproductive toxicity in male rats exposed to lead during the perinatal period. , 2018, Toxicology research.

[5]  M. T. Ahmed,et al.  Risk assessment of heavy metals associated with food consumption in Egypt: A pilot study. , 2018 .

[6]  E. Gratacós,et al.  Heavy metals exposure levels and their correlation with different clinical forms of fetal growth restriction , 2017, PloS one.

[7]  M. Yoneda,et al.  Source profiling of arsenic and heavy metals in the Selangor River basin and their maternal and cord blood levels in Selangor State, Malaysia. , 2017, Chemosphere.

[8]  F. Thévenod,et al.  Cadmium Handling, Toxicity and Molecular Targets Involved during Pregnancy: Lessons from Experimental Models , 2017, International journal of molecular sciences.

[9]  M. S. Sankhla,et al.  Heavy Metal Causing Neurotoxicity in Human Health , 2017 .

[10]  박혜숙,et al.  Blood heavy metal concentrations in pregnant Korean women and their children up to age 5 years: Mothers’ and Children's Environmental Health (MOCEH) birth cohort study , 2017 .

[11]  J. Golding,et al.  Moderate Prenatal Cadmium Exposure and Adverse Birth Outcomes: a Role for Sex‐Specific Differences? , 2016, Paediatric and perinatal epidemiology.

[12]  B. Coull,et al.  Prenatal Arsenic Exposure and Birth Outcomes among a Population Residing near a Mining-Related Superfund Site , 2016, Environmental health perspectives.

[13]  David C. Ellinsworth Arsenic, Reactive Oxygen, and Endothelial Dysfunction , 2015, The Journal of Pharmacology and Experimental Therapeutics.

[14]  D. Grebić,et al.  Expression of metallothioneins in placental and fetal tissues in undisturbed and PGM-Zn treated syngeneic pregnancy , 2015 .

[15]  Blessy B. Mathew,et al.  Toxicity, mechanism and health effects of some heavy metals , 2014, Interdisciplinary toxicology.

[16]  G. Lo Monte,et al.  Heavy metals and placental fetal-maternal barrier: a mini-review on the major concerns. , 2013, European review for medical and pharmacological sciences.

[17]  P. Jennrich,et al.  The Influence of Arsenic, Lead, and Mercury on the Development of Cardiovascular Diseases , 2013 .

[18]  M. Pollán,et al.  Mercury, Cadmium, and Lead Levels in Human Placenta: A Systematic Review , 2012, Environmental health perspectives.

[19]  M. Hengstschläger,et al.  The role of the placenta in fetal exposure to heavy metals , 2012, Wiener Medizinische Wochenschrift.

[20]  A. Tiwari,et al.  Free Radicals and Antioxidants : A Review , 2012 .

[21]  H. M. Zakir,et al.  Heavy metals contamination in water and sediments of an urban river in a developing country , 2011 .

[22]  J. Shine,et al.  Metal sources and exposures in the homes of young children living near a mining-impacted Superfund site , 2011, Journal of Exposure Science and Environmental Epidemiology.

[23]  C. Ríos,et al.  Mother-fetus transference of lead and cadmium in rats: involvement of metallothionein. , 2009, Histology and histopathology.

[24]  Sarita Gupta,et al.  Biochemical effects of gestational coexposure to lead and cadmium on reproductive performance, placenta, and ovary , 2008, Journal of biochemical and molecular toxicology.

[25]  J. Klinowski,et al.  Free radicals and antioxidants. , 1994, Lancet.

[26]  SeymourDr. Effects of Lead , 1843 .