Krzeczkowski JE, Boylan K, Arbuckle TE, Dodds L, Muckle G, Fraser WD, Favotto LA, Van Lieshout RJ, the MIREC Study Group. Early Human Development. 2018 Oct;125:8-16. doi: 10.1016/j.earlhumdev.2018.08.005
Background
Prenatal exposure to maternal metabolic complications has been linked to offspringneurodevelopmental problems. However, no studies investigating these links have examined the role of maternal prenatal diet.
Aims
To determine if prenatal exposure to maternal adiposity or hyperglycemia is associated with neurodevelopmental problems in 3–4 year old children, and if links persist following adjustment for confounding variables, including prenatal diet.
Method
808 mother-child pairs from the Maternal-Infant Research on Environmental Chemicals-Child Development Plus cohort were used to examine associations between pre-pregnancy body mass index (BMI), hyperglycemia and offspring verbal, performance and full-scale IQ scores, as well as internalizing and externalizing problems. Associations were examined before and after adjustment for prenatal diet along with home environment, maternal depression, education and prenatal smoking. Semi-partial correlations were examined post-hoc to assess the impact of each confounder in the adjusted models.
Results
In the unadjusted models, BMI and hyperglycemia predicted lower verbal and full-scale IQ. BMI was also linked to externalizing problems. However, associations were not significant after adjustment. In adjusted models, post-hoc analysis revealed that prenatal diet and home environment accounted for significant variance in verbal and full-scale IQ. The home environment and maternal depression accounted for significant variance in externalizing problems.
Conclusion
In the adjusted models, maternal metabolic complications were not associated with offspring neurodevelopment. Even while adjusting for well-known risk factors for adverse offspring cognition (home environment, maternal depression), we show for the first time that maternal prenatal diet is an important confounder of the links between maternal metabolic complications and offspring cognition.