1. The emergence of dyslexia in the developing brain.
- Author
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Kuhl, Ulrike, Neef, Nicole E., Kraft, Indra, Schaadt, Gesa, Dörr, Liane, Brauer, Jens, Czepezauer, Ivonne, Müller, Bent, Wilcke, Arndt, Kirsten, Holger, Emmrich, Frank, Boltze, Johannes, Friederici, Angela D., and Skeide, Michael A.
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CHILDREN with dyslexia , *SPEECH processing systems , *DYSLEXIA , *FUNCTIONAL magnetic resonance imaging , *AUDITORY cortex - Abstract
Developmental dyslexia, a severe deficit in literacy learning, is a neurodevelopmental learning disorder. Yet, it is not clear whether existing neurobiological accounts of dyslexia capture potential predispositions of the deficit or consequences of reduced reading experience. Here, we longitudinally followed 32 children from preliterate to school age using functional and structural magnetic resonance imaging techniques. Based on standardised and age-normed reading and spelling tests administered at school age, children were classified as 16 dyslexic participants and 16 controls. This longitudinal design allowed us to disentangle possible neurobiological predispositions for developing dyslexia from effects of individual differences in literacy experience. In our sample, the disorder can be predicted already before literacy learning from auditory cortex gyrification and aberrant downstream connectivity within the speech processing system. These results provide evidence for the notion that dyslexia may originate from an atypical maturation of the speech network that precedes literacy instruction. • Longitudinal MRI study following preliterate children developing dyslexia. • Auditory cortex folding was more variable in dyslexic children. • Altered speech network connectivity in dyslexia predates literacy instruction. • Combination of neural and behavioural data reliably predicted dyslexia before school. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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