Lutein and Zeaxanthin Intake during Pregnancy and Visual Function in Offspring at 11-12 Years of Age.
Martin J AndersonDora RomagueraDave Saint-AmourSerena FossatiSilvia FochsNuria PeyMartine VrijheidJordi JulvezPublished in: Nutrients (2022)
(1) Background: Lutein and zeaxanthin (L&Z) are essential dietary nutrients that are a crucial component of the human macula, contributing to visual functioning. They easily cross the placental barrier, so that retinal deposition commences during foetal development. This study aims to assess associations between maternal L&Z intake during pregnancy and offspring visual function at 11-12 years. (2) Methods: Using the Spanish INfancia y Medio Ambiente project (INMA) Sabadell birth cohort, 431 mother-child pairs were analysed. L&Z data were obtained from food frequency questionnaires (FFQ) at week 12 and 32 of pregnancy, alongside other nutritional and sociodemographic covariates. Contrast vision (CS) and visual acuity (VA) were assessed using the automated Freiburg Acuity and Contrast Testing (FRACT) battery. Low CS and VA were defined as being below the 20th cohort centile. Associations were explored using multiple logistic regression. (3) Results: After controlling for potential confounders, L&Z intake during the 1st and 3rd trimester did not reveal any statistically significant association with either CS or VA in offspring at age 11/12 years. (4) Conclusions: No evidence of a long-term association between L&Z intake during pregnancy and visual function in offspring was found. Further larger long-term studies including blood L&Z levels are required to confirm this result.
Keyphrases
- high fat diet
- magnetic resonance
- pregnancy outcomes
- weight gain
- endothelial cells
- preterm birth
- mental health
- machine learning
- quality improvement
- contrast enhanced
- birth weight
- magnetic resonance imaging
- adipose tissue
- type diabetes
- randomized controlled trial
- metabolic syndrome
- computed tomography
- electronic health record
- gestational age
- clinical trial
- induced pluripotent stem cells
- single cell
- dna methylation
- study protocol
- pluripotent stem cells