Dietary Sialyllactose Influences Sialic Acid Concentrations in the Prefrontal Cortex and Magnetic Resonance Imaging Measures in Corpus Callosum of Young Pigs. https://t.co/uZnCW9OnKk
Prenatal Choline Intake Increases Gray and White Matter: Piglet Study
Although the role of choline in neurodevelopment has been studied before in rodents, the new research, done with pigs, has more relevance to humans.
#neuroscience#biology#pregnancy
https://t.co/eyl8aQkmHo
Our work showing #choline during the prenatal period is important for grey and white matter development in young pigs (animal model for human infants) #nutrition#neurodevelopment#pregnancy https://t.co/L5RDZ48ByI
Research shows #choline is important for #brain development in pigs, which are an excellent model for human infants #nutrition#pregnancy https://t.co/6VB0dYXIAX
New research by @atmudd and @rndpig shows that piglets born to choline-deficient mothers have smaller brains with less grey and white matter. @DNSatUofI#ACESstory https://t.co/j8WCq6UlH4
Animal sciences professor Ryan Dilger, graduate student Austin Mudd and their colleagues used neuroimaging to study how iron deficiency influences piglet brain development. The findings may have implications for human infant brain development. https://t.co/YJ3EJVdnSr
Read about #DNS Faculty, Ryan Dilger's work with iron deficiency during the first four weeks of a piglet’s life. The research indicates this deficiency causes impairment of key brain structures during their development. https://t.co/qbzUX5Hnl3
#ILLINOIS study of piglet brain development (a model for human #Infant brain development) reveals lasting deficits when piglets are iron-deficient in the first weeks of life. https://t.co/omBgy1Co1I #neuroscience
Dietary Iron Repletion following Early-Life Dietary Iron Deficiency Does Not Correct Regional Volumetric or Diffusion Tensor Changes in the Developing Pig Brain. https://t.co/uu0YE163Te #FrontNeurol
Dietary Iron Repletion following Early-Life Dietary Iron Deficiency Does Not Correct Regional Volumetric or Diffusion Tensor Changes in the Developing Pig Brain: Austin T. Mudd, Joanne E. Fil, Laura C. Knight, Ryan N. Dilger https://t.co/Dw3fPceCIu