Researchers find supplementing with fish oil enhances fetal iron metabolism
GRANADA, Spain - Researchers from the University of Granada and King's College London on Monday unveiled researching proving that maternal supplementation with docosahexaenoic acid, an omega-3 essential polyunsaturated fatty acid, enhances fetal iron metabolism thanks to a greater expression of key genes regulating its transfer through the placenta.
This multidisciplinary work, published in the Journal of Functional Foods magazine, has proven that, in addition to helping in an early brain development, DHA supplementation is also related to iron metabolism in newborn babies. Moreover, it improves iron reserves before birth and helps prevent future postnatal deficiencies and the damage this could cause to the baby's cognitive development.
In order to carry out their study, the researchers worked with a sample of 110 healthy, pregnant women who gave birth in the maternity hospitals of Granada and Las Palmas de Gran Canaria. They were the subjects of a controlled, randomized, double-blind nutritional assessment which started at the sixth month of gestation.
Two groups were established. One of the groups, made up of 54 women, carried out a balanced diet and consumption of fish, and drank 2 glasses of a control dairy drink per day. The other group, made up of 56 women, carried out a balanced diet and consumption of fish, too, but they supplemented it with the consumption of 400 milligrams per day of a dairy product enhanced with fish oil (2 glasses per day).
The researchers took placenta samples after labor, which were processed for their gene and protein expression analysis.
The results showed a beneficial effect of maternal DHA supplements on iron homeostasis through the syncytiotrophoblast, thus enhancing mother-fetus iron transfer and improving fetal iron reserves.
"Therefore, this DHA supplement is postulated as a nutritional strategy that not only helps in the cognitive and visual development of the baby, but also could help in preventing the risk of suffering anemia," noted Javier Díaz Castro and Julio José Ochoa Herrera, researchers from the UGR department of Physiology and lead authors of this work. "In this regard, this maternal supplementation could prevent anemia-related perinatal complications such as low birth weight and late cognitive development."