2016
DOI: 10.1016/j.neuroimage.2016.08.012
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Atypical right hemisphere response to slow temporal modulations in children with developmental dyslexia

Abstract: Phase entrainment of neuronal oscillations is thought to play a central role in encoding speech. Children with developmental dyslexia show impaired phonological processing of speech, proposed theoretically to be related to atypical phase entrainment to slower temporal modulations in speech (< 10 Hz). While studies of children with dyslexia have found atypical phase entrainment in the delta band (~ 2 Hz), some studies of adults with developmental dyslexia have shown impaired entrainment in the low gamma band (~… Show more

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Cited by 66 publications
(57 citation statements)
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“…The fNIRs data suggest a different balance of processing for slower versus faster AMs by hemisphere for the two groups, which is driven by atypical responses in both hemispheres. The right hemisphere loci reported by Molinaro et al (2016) and Cutini et al (2016) are also interesting in light of the typical finding of a left-lateralised phonological processing deficit in fMRI studies of dyslexia (functional magnetic resonance imaging, which measures blood flow in the brain and hence identifies which brain areas are most active when different functions are performed; see Richlan, Kronbichler, & Wimmer, 2013, for a meta-analysis). The superior time course information provided by EEG and MEG may explain this discrepancy.…”
Section: Neural Entrainment To Slower Modulations In Speech and Nonmentioning
confidence: 94%
“…The fNIRs data suggest a different balance of processing for slower versus faster AMs by hemisphere for the two groups, which is driven by atypical responses in both hemispheres. The right hemisphere loci reported by Molinaro et al (2016) and Cutini et al (2016) are also interesting in light of the typical finding of a left-lateralised phonological processing deficit in fMRI studies of dyslexia (functional magnetic resonance imaging, which measures blood flow in the brain and hence identifies which brain areas are most active when different functions are performed; see Richlan, Kronbichler, & Wimmer, 2013, for a meta-analysis). The superior time course information provided by EEG and MEG may explain this discrepancy.…”
Section: Neural Entrainment To Slower Modulations In Speech and Nonmentioning
confidence: 94%
“…Thus, the temporal segmentation of continuous speech via cortical phase-synchronization observed in non-impaired readers is atypically perfomed in dyslexics (Power et al, 2013(Power et al, , 2016Doelling et al, 2014) . Interestingly, differences between dyslexic and non-dyslexic readers in the 2 Hz band response have been found in the right supramarginal gyrus (Cutini et al, 2016) . This brain region is involved in the processing of speech rhythm (Geiser et al, 2008), and speech prosody (Sammler et al, 2015) , and is part of the dorsal stream for speech processing which is thought to be impaired in dyslexics.…”
Section: Delta (~05-4 Hz)mentioning
confidence: 92%
“…Con la combinación de las técnicas de neuroimagen y las de emisión de oscilaciones electromagnéticas de los distintos tipos de frecuencia (alfa entre 8-13 Hz, beta entre 12 Hz-30 Hz, gamma entre 25 -100 Hz, delta entre 1-3 Hz y theta 3.5 -7.5 Hz) es posible observar las zonas del cerebro que se activan con distintos tipos de estímulos sonoros y rangos de frecuencia. Las oscilaciones corticales a diferentes tasas temporales produ-cen información acústica relevante para la estructura fonológica del habla, con información de banda delta relacionada con la extracción de patrones de estrés silábico, información de banda theta relacionada con la extracción de información silábica, información de la banda beta relacionada con las unidades de inicio y rima (para dividir una sílaba en unidades lingüísticas de tiempo de inicio, segmento marcado por la vocal) e información de banda baja gamma relacionada con la información fonética (Cutini, Szűcs, Mead, Huss y Goswami, 2016). Los hemisferios están especializados en tipos de frecuencia distintos e interaccionan para integrar la información de las distintas frecuencias.…”
Section: Breve Aproximación a La Investigación Sobre La Neuroanatomíaunclassified
“…El derecho está especializado en oscilaciones delta y theta y el izquierdo en oscilaciones gamma. Como sugieren Cutini et al (2016), las diferencias en la especialización hemisférica encontradas en los disléxicos (Lizarazu, Lallier, Molinaro, Bourguignon, Paz-Alonso et al, 2015; Lehongre, Morillon, Giraud y Ramus, 2013) para las ondas gamma podrían surgir durante el aprendizaje de la asociación grafema-fonema, cuando se está integrando en las representaciones fonológicas neurales, es decir, puede deberse a un efecto compensatorio, por lo que podría ser una consecuencia y no la causa de la pobre conciencia fonológica en disléxicos.…”
Section: Breve Aproximación a La Investigación Sobre La Neuroanatomíaunclassified