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ERP Mismatch Negativity Amplitude and Asymmetry Reflect Phonological and Rapid Automatized Naming Skills in English-Speaking Kindergartners
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In: Frontiers (2021)
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Multifactorial pathways facilitate resilience among kindergarteners at risk for dyslexia: A longitudinal behavioral and neuroimaging study
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In: PMC (2021)
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Putative protective neural mechanisms in prereaders with a family history of dyslexia who subsequently develop typical reading skills
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In: Wiley (2021)
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Putative protective neural mechanisms in prereaders with a family history of dyslexia who subsequently develop typical reading skills
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In: Wiley (2021)
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White matter in infancy is prospectively associated with language outcomes in kindergarten
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In: Dev Cogn Neurosci (2021)
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| 6 |
Putative protective neural mechanisms in prereaders with a family history of dyslexia who subsequently develop typical reading skills
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| 7 |
Putative protective neural mechanisms in prereaders with a family history of dyslexia who subsequently develop typical reading skills
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In: Hum Brain Mapp (2020)
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Multifactorial pathways facilitate resilience among kindergarteners at risk for dyslexia: A longitudinal behavioral and neuroimaging study
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In: Dev Sci (2020)
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Disrupted left fusiform response to print in beginning kindergartners is associated with subsequent reading
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In: Elsevier (2019)
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Neural correlates of phonological processing: Disrupted in children with dyslexia and enhanced in musically trained children
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| 11 |
Neural correlates of phonological processing: Disrupted in children with dyslexia and enhanced in musically trained children ...
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Emergence of the neural network underlying phonological processing from the prereading to the emergent reading stage: A longitudinal study ...
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| 13 |
Neural correlates of phonological processing: Disrupted in children with dyslexia and enhanced in musically trained children
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Emergence of the neural network underlying phonological processing from the pre-reading to the emergent reading stage: a longitudinal study
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Revisiting the ‘enigma’ of musicians with dyslexia: auditory sequencing and speech abilities
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Development of Tract-Specific White Matter Pathways During Early Reading Development in At-Risk Children and Typical Controls
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Examining the relationship between home literacy environment and neural correlates of phonological processing in beginning readers with and without a familial risk for dyslexia: an fMRI study
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In: Center for Brain, Biology and Behavior: Papers & Publications (2017)
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| 18 |
Revisiting the "Enigma" of musicians with dyslexia: Auditory sequencing and speech abilities
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| 19 |
Examining the relationship between home literacy environment and neural correlates of phonological processing in beginning readers with and without a familial risk for dyslexia: an fMRI study
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Abstract:
Developmental dyslexia is a language-based learning disability characterized by persistent difficulty in learning to read. While an understanding of genetic contributions is emerging, the ways the environment affects brain functioning in children with developmental dyslexia are poorly understood. A relationship between the home literacy environment (HLE) and neural correlates of reading has been identified in typically developing children, yet it remains unclear whether similar effects are observable in children with a genetic predisposition for dyslexia. Understanding environmental contributions is important given that we do not understand why some genetically at-risk children do not develop dyslexia. Here we investigate for the first time the relationship between HLE and the neural correlates of phonological processing in beginning readers with (FHD+, n=29) and without (FHD−, n=21) a family history of developmental dyslexia. We controlled for socio-economic status to isolate the neurobiological mechanism by which HLE affects reading development. Group differences revealed stronger correlation of HLE with brain activation in the left inferior/middle frontal and right fusiform gyri in FHD− compared to FHD+ children, suggesting greater impact of HLE on manipulation of phonological codes and recruitment of orthographic representations in typically developing children. In contrast, activation in the right precentral gyrus showed a significantly stronger correlation with HLE in FHD+ compared to FHD− children, suggesting emerging compensatory networks in genetically at-risk children. Overall, our results suggest that genetic predisposition for dyslexia alters contributions of HLE to early reading skills before formal reading instruction, which has important implications for educational practice and intervention models.
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Keyword:
Article
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URL: https://doi.org/10.1007/s11881-016-0134-2
http://www.ncbi.nlm.nih.gov/pubmed/27550556
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5061614/
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Investigating the neural correlates of voice versus speech-sound directed information in pre-school children.
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