Study Reinforcing Choline Supplementation During Pregnancy
New research from Cornell University finds that doubling recommended prenatal choline significantly improved childhood brain performance.
New Hampton, NY, (January 10, 2021) – In a new paper1 just published in The FASEB Journal, Cornell University researchers confirmed the critical role choline plays in infant cognitive development. This groundbreaking new research shows that pregnant women who took more than twice the recommended dose of choline during pregnancy had children that demonstrated significant cognitive benefits through early childhood. The original Cornell findings published in 20182 established that higher doses of choline during pregnancy led to improved cognitive performance in infant offspring. This paper now highlights that cognitive improvements were both significant and enduring in those same children at the age of seven.
VitaCholine® from Balchem was the choline used in the original study at Cornell University. This is the first clinical investigation that demonstrates that the brain-boosting benefits of VitaCholine resulted in improved performance and attention in early childhood.
According to the Cornell researchers, even after seven years and without additional choline supplementation, the children born from the higher choline dosage (930 mg) pregnancies maintained their significant cognitive performance advantage over the children from the lower choline dose (480 mg) group. Further, their cognitive performance significantly improved compared to the lower choline dose group as the testing regimen was prolonged and the difficulty progressed. This is the first human clinical study to confirm years of previous animal research that the brain-boosting benefits of supplemental choline during pregnancy endure at least into early childhood.
This landmark research may well have an important impact on public health policy according to Shitij Chabba, Vice President of Minerals & Nutrients and Human Nutrition & Health Marketing at Balchem.
“Higher maternal intakes of VitaCholine significantly improved children’s ability to stay focused and on-task, even during long, challenging assignments. The cognitive boost from VitaCholine observed in infants continues at least to school age when children begin to tax their brains in educational settings,” said Chabba.
Surprisingly, nine out of ten pregnant women don’t even get the recommended Dietary Reference Intake (DRI) of choline3. They likely need to consume higher amounts of choline for their children to realize these newly discovered heightened cognitive benefits. Many prenatal vitamin manufacturers are beginning to reformulate with higher levels of choline and these study findings are likely to continue that trend.
“The importance of choline during pregnancy cannot be overstated this new paper helps establish choline as the premier brain nutrient. The American Medical Association recommends choline inclusion in prenatal vitamins because of the growing body of research that proves its benefits throughout life.” Chabba continued. “This is exciting news for moms – by supplementing their prenatal VitaCholine intake, they give their children the best start for enduring, high cognitive performance.”
Click the link below to read more about how VitaCholine® Enhances Maternal DHA Status.
Resources:
1Bahnfleth, CL, Strupp, BJ, Caudill, MA, Canfield, RL. (2021), Prenatal choline supplementation improves child sustained attention: A 7-year follow-up of a randomized controlled feeding trial. FASEB J. 2022; 36:e22054. https://doi.org/10.1096/fj.202101217R
2Caudill, M.A., Strupp, B.J., Muscalu, L., Nevins, J.E.H. and Canfield, R.L. (2018), Maternal choline supplementation during the third trimester of pregnancy improves infant information processing speed: a randomized, double-blind, controlled feeding study. The FASEB Journal, 32: 2172-2180. https://doi.org/10.1096/fj.201700692RR
3Wallace, T. C., & Fulgoni, V. L. (2017). Usual Choline Intakes Are Associated with Egg and Protein Food Consumption in the United States. Nutrients, 9(8), 839. https://doi.org/10.3390/nu9080839