New York: Researchers has found that consuming more foods with choline during pregnancy may boost metabolism and brain development of babies.
Although the role of choline in neurodevelopment has been studied before in rodents, the new research was conducted on pigs, which has more relevance to humans.
Austin Mudd, a doctoral student in the Neuroscience Program at the University of Illinois said,"In pigs from choline-deficient moms, their brains were about 10 percent smaller overall."
And 11 of the 19 regions were significantly smaller in choline-deficient brains, he said. The result was the same in grey and white matter concentration of the piglets.
Conversely, piglets whose mothers consumed sufficient choline during pregnancy had higher concentrations of grey and white matter in the brain's cortical regions.
Grey matter is primarily made up of the neurons themselves, while white matter comprises the material that connects neurons and bridges in different parts of the brain.
For the study, the team gave pregnant sows choline-deficient or choline-sufficient diets through the second half of their pregnancies.
After weaning, piglets were fed choline-deficient or choline-sufficient milk replacer for 30 days. Then the month-old piglets were scanned by magnetic resonance imaging (MRI).
The left and right cortex were found to be larger in the choline-sufficient pigs, as a result of the a greater density of grey matter in the brain.
As part of the study, some of the pigs from choline-deficient mothers were also given adequate amounts of choline after birth.
The results showed that it is not sufficient for the brain.
"Postnatal supplementation cannot correct for prenatal deficiency. It has to occur during development," explained Ryan Dilger, associate professor at the varsity.
"We know that the structural alteration is there, but it may not manifest in ways we can see until later in life. That's why it's important to think about this during gestation because the changes are occurring then," Mudd noted.
The study was published in Current Developments in Nutrition.
(With IANS inputs)