White matter microstructural plasticity associated with educational intervention in reading disability

Author:

Meisler Steven L.12,Gabrieli John D. E.123,Christodoulou Joanna A.234

Affiliation:

1. Program in Speech and Hearing Bioscience and Technology, Harvard Medical School, Boston, MA, United States

2. Department of Brain and Cognitive Sciences, Massachusetts Institute of Technology, Cambridge, MA, United States

3. McGovern Institute for Brain Research, Cambridge, MA, United States

4. Department of Communication Sciences and Disorders, MGH Institute of Health Professions, Charlestown, MA, United States

Abstract

Abstract Children’s reading progress typically slows during extended breaks in formal education, such as summer vacations. This stagnation can be especially concerning for children with reading difficulties or disabilities, such as dyslexia, because of the potential to exacerbate the skills gap between them and their peers. Reading interventions can prevent skill loss and even lead to appreciable gains in reading ability during the summer. Longitudinal studies relating intervention response to brain changes can reveal educationally relevant insights into rapid learning-driven brain plasticity. The current work focused on reading outcomes and white matter connections, which enable communication among the brain regions required for proficient reading. We collected reading scores and diffusion-weighted images at the beginning and end of summer for 41 children with reading difficulties who had completed either 1st or 2nd grade. Children were randomly assigned to either receive an intensive reading intervention (n = 26; Seeing Stars from Lindamood-Bell which emphasizes orthographic fluency) or be deferred to a wait-list group (n = 15), enabling us to analyze how white matter properties varied across a wide spectrum of skill development and regression trajectories. On average, the intervention group had larger gains in reading compared to the non-intervention group, who declined in reading scores. Improvements on a proximal measure of orthographic processing (but not other more distal reading measures) were associated with decreases in mean diffusivity within core reading brain circuitry (left arcuate fasciculus and left inferior longitudinal fasciculus) and increases in fractional anisotropy in the left corticospinal tract. Our findings suggest that responses to intensive reading instruction are related predominantly to white matter plasticity in tracts most associated with reading.

Publisher

MIT Press

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