Abstract

BackgroundIodine is an essential trace element for the production of thyroid hormones, and plays a key role during the gestational period for optimal foetal growth and (neuro-)development. To this day, iodine deficiency remains a global burden. Previous studies indicate that the placenta can store iodine in a concentration-dependent manner and serve as a long-term storage supply, but studies on the determinants of long-term placental iodine load are limited.MethodsThe placental iodine concentrations were determined for 462 mother-neonate pairs from the ENVIRONAGE birth cohort (Limburg, Belgium). Sociodemographic and clinical variables were obtained from questionnaires and medical files. Determinants of placental iodine concentration were identified using stepwise multiple regression procedures (p value < 0.15). The biological significance of our findings was investigated by measuring the plasma thyroid hormones in maternal and cord blood of 378 participants.ResultsA higher pre-pregnancy BMI, higher gestational weight gain, and alcohol consumption during pregnancy were linked with lower placental iodine storage. Multi-vitamin supplementation during pregnancy and longer gestation were associated with higher levels of placental iodine. Children born during the winter period had on average higher placental iodine levels. Besides, we found a significant positive time trend for placental iodine load over the study period 2013 to 2017. Lastly, we observed positive associations of both the maternal and cord plasma thyroxine concentrations with placental iodine load, emphasizing their biological link.ConclusionsThis study identified some determinants likely presenting a risk of reduced iodine storage during the gestational period of life. Future studies should elucidate the effects of lower placental iodine load on neonatal health, and health later in life.

Highlights

  • Iodine is an essential trace element for the production of thyroid hormones, and plays a key role during the gestational period for optimal foetal growth anddevelopment

  • This study identified some determinants likely presenting a risk of reduced iodine storage during the gestational period of life

  • Future studies should elucidate the effects of lower placental iodine load on neonatal health, and health later in life

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Summary

Introduction

Iodine is an essential trace element for the production of thyroid hormones, and plays a key role during the gestational period for optimal foetal growth and (neuro-)development. To this day, iodine deficiency remains a global burden. Previous studies indicate that the placenta can store iodine in a concentration-dependent manner and serve as a long-term storage supply, but studies on the determinants of long-term placental iodine load are limited. Iodine is an essential trace element that plays a vital role in the production and regulation of thyroid-stimulating hormone (TSH) and the thyroid hormones tri-iodothyronine ­(FT3) and thyroxine (­FT4), which are essential for optimal foetal growth and (neuro) development [1]. Placental iodine is likely to better reflect long-term iodine intake, whereas the urinary iodine concentrations mainly reflect short-term intake [8]

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