Cortical tracking of speech in noise accounts for reading strategies in children
Ikusi/ Ireki
Data
2020Egilea
Destoky, Florian
Bertels, Julie
Niesen, Maxime
Wens, Vincent
Vander Ghinst, Marc
Leybaert, Jacqueline
Lallier, Marie
Ince, Robin A. A.
Gross, Joachim
De Tiège, Xavier
Bourguignon, Mathieu
Destoky F, Bertels J, Niesen M, Wens V, Vander Ghinst M, Leybaert J, et al. (2020) Cortical tracking of speech in noise accounts for reading strategies in children. PLoS Biol 18(8): e3000840. https://doi.org/10.1371/journal.pbio.3000840
Laburpena
Humans’ propensity to acquire literacy relates to several factors, including the ability to
understand speech in noise (SiN). Still, the nature of the relation between reading and SiN
perception abilities remains poorly understood. Here, we dissect the interplay between (1)
reading abilities, (2) classical behavioral predictors of reading (phonological awareness,
phonological memory, and rapid automatized naming), and (3) electrophysiological markers
of SiN perception in 99 elementary school children (26 with dyslexia). We demonstrate that,
in typical readers, cortical representation of the phrasal content of SiN relates to the degree
of development of the lexical (but not sublexical) reading strategy. In contrast, classical
behavioral predictors of reading abilities and the ability to benefit from visual speech to represent
the syllabic content of SiN account for global reading performance (i.e., speed and
accuracy of lexical and sublexical reading). In individuals with dyslexia, we found preserved
integration of visual speech information to optimize processing of syntactic information but
not to sustain acoustic/phonemic processing. Finally, within children with dyslexia, measures
of cortical representation of the phrasal content of SiN were negatively related to reading
speed and positively related to the compromise between reading precision and reading
speed, potentially owing to compensatory attentional mechanisms. These results clarify the
nature of the relation between SiN perception and reading abilities in typical child readers
and children with dyslexia and identify novel electrophysiological markers of emergent
literacy.