Background Eggs are a rich source of choline, an essential nutrient important for child growth and development. In a randomized trial of one egg/day among young children in Ecuador, an egg intervention led to significant improvements in growth, which was partially mediated by increased plasma choline concentration. A similar trial in Malawi (clinicaltrials.gov: NCT03385252) found little improvement in child growth or development. Objective We aimed to evaluate the effect of one egg/day for 6 months on plasma choline concentrations among Malawian children enrolled in a randomized trial. Methods Infants age 6-9 months in rural Malawi were randomized to receive one egg/day (n = 331) or serve as a nonintervention control (n = 329) for 6 months. Anthropometric, developmental, and dietary data were collected at baseline and 6 month follow up, along with a blood draw. Plasma choline, betaine, dimethylglycine, trimethylamine N-oxide (TMAO), and docosahexaenoic acid were measured at both time points using UPLC-MS/MS (n = 200 per group). Linear regression analysis was used to determine the difference in plasma choline and related metabolites between groups after 6 months of intervention. Results Plasma choline, betaine, dimethylglycine, and docosahexaenoic acid concentrations did not differ between groups at 6 month follow up. Plasma TMAO was significantly (26% [95% CI: 7%, 48%]) higher in the egg intervention group in a fully adjusted model. Conclusions Provision of one egg/day for 6 months did not result in increases in plasma choline or related metabolites, except TMAO. This may partially explain the lack of effect on growth and development. Additional interventions are needed to improve choline status, growth, and development in this population.
Choline and DHA are nutrients that, when provided during the first 1000 days from conception to age 2 years, may have beneficial effects on child neurodevelopment as well as related health factors, including birth outcomes and child growth, morbidity, and inflammation. Because these nutrients are found mainly in animal-source foods, they may be lacking in the diets of pregnant and lactating women and young children in low- and middle-income countries, potentially putting children at risk for suboptimal development and health. Prior reviews of these nutrients have mainly focused on studies from high-income countries. Here, a narrative review is presented of studies describing the pre- and postnatal roles of choline, docosahexaenoic acid, and a combination of the 2 nutrients on child neurodevelopment, birth outcomes, growth, morbidity, and inflammation in low- and middle-income countries. More studies are needed to understand the specific, long-term effects of perinatal choline and docosahexaenoic acid intake in various contexts.
Choline is an essential micronutrient that may influence growth and development; however, few studies have examined postnatal choline status and children's growth and development in low-and middle-income countries. The aim of this observational analysis was to examine associations of plasma choline with growth and development among Malawian children aged 6-15 months enrolled in an egg intervention trial. Plasma choline and related metabolites (betaine, dimethylglycine and trimethylamine N-oxide) were measured at baseline and 6-month follow-up, along with anthropometric (length, weight, head circumference) and developmental assessments (the Malawi Developmental Assessment Tool [MDAT], the Infant Orienting with Attention task [IOWA], a visual paired comparison [VPC] task and an elicited imitation [EI] task).In cross-sectional covariate-adjusted models, each 1 SD higher plasma choline was associated with lower length-for-age z-score (−0.09 SD [95% confidence interval, CI −0.17 to −0.01]), slower IOWA response time (8.84 ms [1.66-16.03]) and faster processing speed on the VPC task (−203.5 ms [−366.2 to −40.7]). In predictive models, baseline plasma choline was negatively associated with MDAT fine motor z-score at 6-month follow-up (−0.13 SD [−0.22 to −0.04]). There were no other significant associations of plasma choline with child measures. Similarly, associations of choline metabolites with growth and development were null except higher trimethylamine N-oxide was associated with slower information processing on the VPC task and higher memory scores on the EI task.In this cohort of children with low dietary choline intake, we conclude that there were no strong or consistent associations between plasma choline and growth and development.
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