4.6 Article

Cross-Sectional Investigation of Brain Volume in Dyslexia

Journal

FRONTIERS IN NEUROLOGY
Volume 13, Issue -, Pages -

Publisher

FRONTIERS MEDIA SA
DOI: 10.3389/fneur.2022.847919

Keywords

reading; developmental dyslexia; local brain volume; gray matter; VBM; structural MRI

Funding

  1. Deutsche Forschungsgemeinschaft [BL 435/3-1, BL 435/3-2, LI 2659/2-1]

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The study aimed to investigate the association between dyslexia and brain volume differences, and whether these differences showed age-related effects. The researchers used voxel-based morphometry to analyze the gray and white matter volume in dyslexic and normal reading subjects of different ages. The results showed that reading skills improved steadily in both groups, but only the children with dyslexia showed significant differences in local gray matter volume compared to the neurotypical readers. These differences were found in brain areas associated with the reading network. The study also revealed that while the performance of neurotypical readers increased over time, there was a decrease in gray matter volume. However, this correlation was not observed in dyslexic readers. This suggests that dyslexia is associated with lower gray matter volume in the reading network during the early stages, and the neural basis of dyslexia does not seem to support normal reading performances even in adults. Therefore, consistent support for individuals with dyslexia in their education and career is crucial.
The goal of the study was to determine whether dyslexia is associated with differences in local brain volume, and whether these local brain volume differences show cross-sectional age-effects. We investigated the local volume of gray and white brain matter with voxel-based morphometry (VBM) as well as reading performance in three age groups of dyslexic and neurotypical normal reading subjects (children, teenagers and adults). Performance data demonstrate a steady improvement of reading skills in both neurotypical as well as dyslexic readers. However, the pattern of gray matter volumes tell a different story: the children are the only group with significant differences between neurotypical and dyslexic readers in local gray matter brain volume. These differences are localized in brain areas associated with the reading network (angular, middle temporal and inferior temporal gyrus as well as the cerebellum). Yet the comparison of neurotypical and normal readers over the age groups shows that the steady increase in performance in neurotypical readers is accompanied by a steady decrease of gray matter volume, whereas the brain volumes of dyslexic readers do not show this linear correlation between brain volume and performance. This is further evidence that dyslexia is a disorder with a neuroanatomical basis in the form of a lower volume of gray matter in parts of the reading network in early dyslexic readers. The present data point out that network shaping processes in gray matter volume in the reading network does take place over age in dyslexia. Yet this neural foundation does not seem to be sufficient to allow normal reading performances even in adults with dyslexia. Thus dyslexia is a disorder with lifelong consequences, which is why consistent support for affected individuals in their educational and professional careers is of great importance. Longitudinal studies are needed to verify whether this holds as a valid pattern or whether there is evidence of greater interindividual variance in the neuroanatomy of dyslexia.

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