Associate Professor Dr. Masako Fujita publishes in the American Journal of Biological Anthropology

Department of Anthropology Associate Professor Dr. Masako Fujita and co-authors Katherine Wander, Tin Tran, and Eleanor Brindle recently published an article in the American Journal of Biological Anthropology. The article is titled “Characterizing the extent human milk folate is buffered against maternal malnutrition and infection in drought-stricken northern Kenya.” This publication investigates whether and how the extent of maternal buffering of milk folate may diminish under prolonged nutritional and disease stress, while taking into consideration infants’ varying vulnerability to malnutrition-related morbidity/mortality. The results of this study suggest that mothers buffer milk folate against their own nutritional stress even during a prolonged drought; however, the extent of this buffering may vary with infant age, and, among folate-deficient mothers, with infant sex.

Read the full article at: https://doi.org/10.1002/ajpa.24603

Abstract:

Objectives: Folate is an essential nutrient fundamental to human growth and development. Human milk maintains high folate content across the maternal folate status range, suggesting buffering of milk folate with prioritized delivery to milk at the expense of maternal depletion. We investigated whether and how the extent of this buffering may diminish under prolonged nutritional and/or disease stress, while taking into consideration infants’ varying vulnerability to malnutrition-related morbidity/mortality.

Methods: A cross-sectional study analyzed milk specimens from northern Kenyan mothers (n=203), surveyed during a historic drought and ensuing food shortage. Multiple regression models for folate receptor-α(FOLR1) in milk were constructed. Predictors included maternal underweight (BMI < 18.5), iron-deficiency anemia (hemoglobin <12 g/dl and dried-blood-spot transferrin receptor >5 mg/L), folate deficiency (hyperhomocysteinemia, homocysteine >12 or 14μmol/L), inflammation (serum C-reactive protein >5 mg/L), infant age and sex, and mother-infant interactions.

Results: In adjusted models, milk FOLR1 was unassociated with maternal under-weight, iron-deficiency anemia and inflammation. FOLR1 was positively associated with maternal folate deficiency, and inversely associated with infant age. There was interaction between infant age and maternal underweight, and between infant sex and maternal folate deficiency, predicting complex changes in FOLR1.

Conclusions: Our results suggest that mothers buffer milk folate against their own nutritional stress even during a prolonged drought; however, the extent of this buffering may vary with infant age, and, among folate-deficient mothers, with infant sex. Future research is needed to better understand this variability in maternal buffering of milk folate and how it relates to folate status in nursing infants.