Functional characteristics of developmental dyslexia in left-hemispheric posterior brain regions predate reading onset

Raschle, Nora Maria; Zuk, Jennifer; Gaab, Nadine

doi:10.1073/pnas.1107721109

Cited by 203 publications

(214 citation statements)

References 72 publications

(128 reference statements)

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“…Previous neuroimaging studies on reading and phonological tasks have reported, in dyslexic participants relative to controls, higher activity in IFG (47,48) and less activation mostly in the left parietotemporal, left occipitotemporal, and left frontal areas (49)(50)(51), although this is not the case in all studies (e.g., refs. 52, 53).…”

Section: Discussioncontrasting

confidence: 39%

Dysfunction of the auditory thalamus in developmental dyslexia

Díaz¹,

Hintz²,

Kiebel

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

153

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Developmental dyslexia, a severe and persistent reading and spelling impairment, is characterized by difficulties in processing speech sounds (i.e., phonemes). Here, we test the hypothesis that these phonological difficulties are associated with a dysfunction of the auditory sensory thalamus, the medial geniculate body (MGB). By using functional MRI, we found that, in dyslexic adults, the MGB responded abnormally when the task required attending to phonemes compared with other speech features. No other structure in the auditory pathway showed distinct functional neural patterns between the two tasks for dyslexic and control participants. Furthermore, MGB activity correlated with dyslexia diagnostic scores, indicating that the task modulation of the MGB is critical for performance in dyslexics. These results suggest that deficits in dyslexia are associated with a failure of the neural mechanism that dynamically tunes MGB according to predictions from cortical areas to optimize speech processing. This view on task-related MGB dysfunction in dyslexics has the potential to reconcile influential theories of dyslexia within a predictive coding framework of brain function.functional MRI | speech recognition | auditory processing | magnocellular

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Section: Discussioncontrasting

confidence: 39%

Dysfunction of the auditory thalamus in developmental dyslexia

Díaz¹,

Hintz²,

Kiebel

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

153

View full text Add to dashboard Cite

show abstract

“…An fMRI study in at-risk kindergartners reported hypoactivations at left posterior regions before formal reading instruction at brain areas corresponding to previously identified areas in adult and school-aged dyslexics (Raschle, Zuk & Gaab, 2012). Brain activity at left occipito-temporal and temporo-parietal areas was positively correlated with pre-reading skills in both groups.…”

Section: Interaction Of Internal Resources and External Factors In Scmentioning

confidence: 72%

“…It has been also seen that several dissimilar genetic profiles can lead to similarly manifesting phenotypes of dyslexia (Pennington, 2006;Willcutt et al, 2010). Many brain studies show anatomic and functional abnormalities in the brains of at-risk children before formal reading instruction, even at birth (e.g., Clark et al, 2014;Guttorm et al, 2001;Guttorm et al, 2003;Raschle, Zuk & Gaab, 2012;van Zuijen et al, 2012). It has been claimed, however, that the dissimilarities seen between the brain responses of dyslexics and controls at school age and as adults could in fact be caused by differences in reading experiences instead of being inherited.…”

Section: The Effect Of Familial Risk On Dyslexiamentioning

confidence: 99%

Enhancement of brain event-related potentials to speech sounds is associated with compensated reading skills in dyslexic children with familial risk for dyslexia

Lohvansuu

Hämäläinen

Tanskanen

et al. 2014

International Journal of Psychophysiology

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“…Furthermore, the combination of the right prefrontal activation in a rhyming task and the white matter organization in the left superior longitudinal fasciculus informed about the long-term reading gains of children with developmental dyslexia (Hoeft et al, 2011). Lately, it has been shown that structural as well as functional (Raschle, Zuk, & Gaab, 2012) differences related to dyslexia are already detectable in preschool children, before they learn to read (Raschle, Chang, & Gaab, 2010). In children with a high familial risk of developing reading problems, a reduced amount of grey matter was found in the bilateral parietotemporal and left occipito-temporal regions (Raschle et al, 2010).…”

Section: S Brem Et Al the Visual N1 As A Predictor For Reading Outcmentioning

confidence: 99%

An Electrophysiological Study of Print Processing in Kindergarten: The Contribution of the Visual N1 as a Predictor of Reading Outcome

Brem

Bach

Kujala

et al. 2013

Developmental Neuropsychology

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Sensitivity to print is characterized by a left occipito-temporal negativity to words in the event-related potential N1. This sensitivity is modulated by reading skills and may thus represent a neural marker of reading competence. Here we studied the development of the N1 in regular and poor readers from preschool age to school age to test whether the amplitude of the N1 predicts children's reading outcomes. Our results suggest a predictive value of the print-sensitive negativity over the right hemisphere. Whether this N1 may serve as a biomarker to improve prognosis in preliterate children should be clarified in future studies. AbstractSensitivity to print is characterized by a left occipito-temporal negativity to words in the event-related potential N1. This sensitivity is modulated by reading skills and may thus represent a neural marker of reading competence. Here we studied the development of the N1 in regular and poor readers from preschool age to school age to test whether the amplitude of the N1 predicts children's reading outcomes.Our results suggest a predictive value of the print-sensitive negativity over the right hemisphere. Whether this N1 may serve as a biomarker to improve prognosis in preliterate children should be clarified in future studies.

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Functional characteristics of developmental dyslexia in left-hemispheric posterior brain regions predate reading onset

Cited by 203 publications

References 72 publications

Dysfunction of the auditory thalamus in developmental dyslexia

Dysfunction of the auditory thalamus in developmental dyslexia

Enhancement of brain event-related potentials to speech sounds is associated with compensated reading skills in dyslexic children with familial risk for dyslexia

An Electrophysiological Study of Print Processing in Kindergarten: The Contribution of the Visual N1 as a Predictor of Reading Outcome

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