Language ability in preterm children is associated with arcuate fasciculi microstructure at term.
Piergiorgio SalvanJ Donald TournierDafnis BatalleShona FalconerAndrew ChewNigel KenneaPaul AljabarGhislaine Dehaene-LambertzTomoki ArichiA David EdwardsSerena J CounsellPublished in: Human brain mapping (2017)
In the mature human brain, the arcuate fasciculus mediates verbal working memory, word learning, and sublexical speech repetition. However, its contribution to early language acquisition remains unclear. In this work, we aimed to evaluate the role of the direct segments of the arcuate fasciculi in the early acquisition of linguistic function. We imaged a cohort of 43 preterm born infants (median age at birth of 30 gestational weeks; median age at scan of 42 postmenstrual weeks) using high b value high-angular resolution diffusion-weighted neuroimaging and assessed their linguistic performance at 2 years of age. Using constrained spherical deconvolution tractography, we virtually dissected the arcuate fasciculi and measured fractional anisotropy (FA) as a metric of white matter development. We found that term equivalent FA of the left and right arcuate fasciculi was significantly associated with individual differences in linguistic and cognitive abilities in early childhood, independent of the degree of prematurity. These findings suggest that differences in arcuate fasciculi microstructure at the time of normal birth have a significant impact on language development and modulate the first stages of language learning. Hum Brain Mapp 38:3836-3847, 2017. © 2017 Wiley Periodicals, Inc.
Keyphrases
- gestational age
- white matter
- working memory
- birth weight
- preterm birth
- autism spectrum disorder
- low birth weight
- multiple sclerosis
- diffusion weighted
- preterm infants
- contrast enhanced
- transcranial direct current stimulation
- attention deficit hyperactivity disorder
- magnetic resonance imaging
- weight gain
- blood brain barrier