Dyscalculia and dyslexia: Different behavioral, yet similar brain activity profiles during arithmetic

Peters, Lien; Bulthé, Jessica; Daniels, Nicky; Beeck, Hans Op de; Smedt, Bert De

doi:10.1016/j.nicl.2018.03.003

Cited by 66 publications

(52 citation statements)

References 63 publications

(85 reference statements)

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“…Especially relevant for this study are findings showing that the representation of exact arithmetic recruits language-related networks (Dehaene et al, 2003;Evans, Flowers, Napoliello, Olulade, & Eden, 2014;Koerte et al, 2016) that are also involved in reading. Based on these findings, the association between literacy and exact arithmetic found in this study is to be expected and is in line with recent fMRI findings showing similar neural activation patterns in children with RD, MD and comorbid problems during arithmetic tasks (Peters, Bulth e, Daniels, de Beeck, & De Smedt, 2018).…”

Section: Discussionsupporting

confidence: 93%

Understanding comorbidity of learning disorders: task‐dependent estimates of prevalence

Moll

Landerl

Snowling

et al. 2018

Child Psychology Psychiatry

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The overlap between RD and MD depends on the subskills used to define MD. Due to shared domain-general factors mathematical subskills that draw on language skills are more strongly associated with literacy than those that do not require language. The findings further indicate that the same symptom, such as deficits in arithmetic, can be associated with different cognitive deficits, a deficit in language skills or a deficit in number processing.

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Section: Discussionsupporting

confidence: 93%

Understanding comorbidity of learning disorders: task‐dependent estimates of prevalence

Moll

Landerl

Snowling

et al. 2018

Child Psychology Psychiatry

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“…At the neural level, brain imaging data on reading versus arithmetic suggest overlapping neural networks with shared activations in subsections of the left temporo-parietal cortex, including the left angular and supramarginal gyri Schlaggar & McCandliss, 2007). Two recently published studies contrasted groups of children with learning disabilities (reading disabilities, mathematical disabilities, comorbid reading/mathematical disabilities) and surprisingly observed more neural similarities than differences between these groups (Moreau, Wilson, McKaya, Nihillc, & Waldie, 2018;Peters, Bulthé, Daniels, Op de Beeck, & De Smedt, 2018). observed for instance higher activation levels in frontal and parietal areas in typically developing children compared to children with learning disabilities, who did not differ from each other regardless of differences in their type of learning disability.…”

Section: Co-development Of Early Reading and Early Arithmeticmentioning

confidence: 99%

Cross-domain associations of key cognitive correlates of early reading and early arithmetic in 5-year-olds

Vanbinst

Bergen

Ghesquière

et al. 2020

Early Childhood Research Quarterly

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Disabilities in reading and arithmetic often co-occur, but (dis)abilities in reading and arithmetic have mostly been studied in isolation from each other. This study explicitly focused on the co-development of early reading and early arithmetic before primary education. The Multiple Deficit Model was used as theoretical framework (Pennington, 2006). According to this model, the overlap between early reading and early arithmetic is due to a constellation of shared and unique cognitive correlates. Therefore, we investigated whether key cognitive correlates of one academic ability also correlate with the other. Participants were 188 five-year-old kindergartners who had not yet been formally instructed in reading and arithmetic. Phonological awareness was selected as reading-specific cognitive correlate and (non)symbolic numerical magnitude processing and numeral recognition were considered as arithmetic-specific cognitive correlates. We administered a productive letter knowledge task as a proxy of early reading. Early arithmetic was assessed with simple problems such as 2 + 3 =?. Regression analyses and Bayesian hypothesis testing revealed significant correlations between early reading and early arithmetic before children start primary education. Phonological awareness predicted not only early reading but also, early arithmetic, even when controlling for early reading and arithmetic-specific cognitive correlates. Likewise, numeral recognition predicted not only early arithmetic, but also early reading, even when controlling for early arithmetic and phonological awareness. Phonological awareness and numeral recognition can be considered shared cognitive correlates of both academic domains. In contrast, non-symbolic and symbolic numerical magnitude processing skills were specifically correlated to early arithmetic, and not to early reading, indicating that they are unique to only one academic domain. In line with the Multiple Deficit Model, our data suggest that early reading and early arithmetic have a shared as well as unique underlying cognitive basis. Further unravelling what these academic abilities have in common can be of high value for detecting children at risk already before their transition to formal primary education.

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“…Neuroscience has also had a wider and subtler impact on the debate surrounding the utility of defining specific categories of learning disability and allocating diagnoses to individual children according to these categories. Investigations at both brain level (Peters, Bulthé, Daniels, Op de Beeck, & De Smedt, ) and genetic level (e.g. Kovas, Haworth, Dale, & Plomin, ) suggest that, genetic syndromes aside, most education‐relevant developmental deficits lie on a continuum with variation in abilities in the mainstream population.…”

Section: Progress In Educational Neurosciencementioning

confidence: 99%

Annual Research Review: Educational neuroscience: progress and prospects

Thomas

Ansari

Knowland

2018

Child Psychology Psychiatry

168

128

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Educational neuroscience is an interdisciplinary research field that seeks to translate research findings on neural mechanisms of learning to educational practice and policy and to understand the effects of education on the brain. Neuroscience and education can interact directly, by virtue of considering the brain as a biological organ that needs to be in the optimal condition to learn (‘brain health’); or indirectly, as neuroscience shapes psychological theory and psychology influences education. In this article, we trace the origins of educational neuroscience, its main areas of research activity and the principal challenges it faces as a translational field. We consider how a pure psychology approach that ignores neuroscience is at risk of being misleading for educators. We address the major criticisms of the field comprising, respectively, a priori arguments against the relevance of neuroscience to education, reservations with the current practical operation of the field, and doubts about the viability of neuroscience methods for diagnosing disorders or predicting individual differences. We consider future prospects of the field and ethical issues it raises. Finally, we discuss the challenge of responding to the (welcome) desire of education policymakers to include neuroscience evidence in their policymaking, while ensuring recommendations do not exceed the limitations of current basic science.

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Dyscalculia and dyslexia: Different behavioral, yet similar brain activity profiles during arithmetic

Cited by 66 publications

References 63 publications

Understanding comorbidity of learning disorders: task‐dependent estimates of prevalence

Understanding comorbidity of learning disorders: task‐dependent estimates of prevalence

Cross-domain associations of key cognitive correlates of early reading and early arithmetic in 5-year-olds

Annual Research Review: Educational neuroscience: progress and prospects

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