Cognitive heterogeneity of math difficulties: A bottom-up classification approach

Salvador, Larissa de Souza; Moura, Ricardo; Wood, Guilherme; Haase, Vítor Geraldi

doi:10.5964/jnc.v5i1.60

Cited by 7 publications

(5 citation statements)

References 112 publications

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“…Thirdly, although we included a wide range of measures prominent in current LD research, our selection of cognitive skills entered in the LPA was still limited. Especially the inclusion of additional domain-specific measures in the mathematical domain such as magnitude comparison and basic number processing rather than only visual-spatial short-term memory would be worthy to consider in future studies as those skills have not only been found to contribute largely to mathematical skill development in general (e.g., Lonnemann et al, 2011 ), but also to differentiate between children with and without MD in previous person-centered approaches (e.g., de Souza Salvador et al, 2019 ). For instance, it seems reasonable to assume that profile 4 (single attention deficit and at risk of visual-spatial short-term memory), which was after all to 40% made up of children with MD-only, may show additional at-risk performance (or even deficits) in these domain-specific skills relevant in mathematics.…”

Section: Discussionmentioning

confidence: 99%

“…In the domain of mathematics, the second study by de Souza Salvador et al ( 2019 ) used a clustering approach based on measures of magnitude comparison, visual-spatial working memory, and verbal working memory to identify distinct cognitive subgroups among 192 typical achievers and 150 children with MD. In addition to two profiles without any cognitive deficits, two low achieving profiles were identified, consisting of children with low visuospatial abilities and with poor magnitude processing, respectively.…”

Section: Introductionmentioning

confidence: 99%

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Are Different Types of Learning Disorder Associated With Distinct Cognitive Functioning Profiles?

et al. 2021

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Introduction: DSM-5 presented a revised conceptualization of specific learning disorders (LD). Contrary to former versions, the various types of LD—i.e., mathematics disorder, reading disorder, and writing disorder—are not treated as distinct diagnostic entities but are integrated into one single LD category. In support of this new classification, it has been argued that the various types of LD overlap to a great extent in their cognitive functioning profiles and therefore do not exhibit a distinct set of cognitive causes. In contrast, ICD-11 still adheres to the idea of discrete categories and thus follows the specificity hypothesis of LD. Using latent profile analysis (LPA), we therefore tested the specificity of cognitive strengths and weaknesses in children with different types of LD. Secondly, we aimed at examining the extent to which observed LD characteristics (type and severity of LD as well as IQ-achievement discrepancy) were consistent with the membership of a given latent profile.Method: 302 German third-graders (134 girls; IQ ≥ 85; Mage = 111.05 months; SD = 5.76) with single or comorbid types of LD in the domains of mathematics, reading, and spelling completed a wide range of domain-specific and domain-general cognitive functioning measures.Results: Five qualitative distinct profiles of cognitive strengths and weaknesses were identified. Profile 1 (23% of the sample) showed Comprehensive Cognitive Deficits, performing low in all measures except for naming speed, language, and inhibition. Profile 2 (21%) included children with a Double Deficit in Phonological Awareness and Phonological Short-term Memory. Profile 3 (20%) was characterized by a Double Deficit of Phonological Awareness and Naming Speed. Profile 4 (19%) included children with a Single Deficit in Attention, and profile 5 (17%) consisted of children without any cognitive deficits. Moreover, type and severity of LD as well as IQ-achievement discrepancy discriminated between the profiles, which is in line with the specificity hypothesis of LD.Discussion: Overall, the finding of specific associations between the LD types and the identified cognitive profiles supports the ICD-11 classification of LD. Yet, those inferences may not be valid for an individual child but need to be examined through comprehensive diagnostic.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Are Different Types of Learning Disorder Associated With Distinct Cognitive Functioning Profiles?

et al. 2021

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“…Importantly, the significant role of WM for number transcoding may reflect one of the underlying factors associated with specific learning difficulties in the domains of both mathematics (Salvador et al, 2019) and reading (Peterson & Pennington, 2015). These respective developmental disabilities frequently cooccur and, in the next sections, we discuss hypotheses put forward to explain this high comorbidity.…”

Section: The Numerical Arabic Systemmentioning

confidence: 99%

Reading and writing words and numbers: Similarities, differences, and implications

Moura¹,

Haase²,

Lopes-Silva³

et al. 2021

Diversity Dimensions in Mathematics and Language Learning

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“…This ability is also shown to be anchored in the IPS in the lateral parietal lobe (Dehaene et al, 2003 ; Piazza et al, 2004 ; Price et al, 2013 , 2016 ; Rosenberg‐Lee et al, 2011 ; Schel & Klingberg, 2016 ). In comparison, individuals with MLD have been shown to suffer from impairments in processing symbolic quantity information and maybe also in nonsymbolic quantity information (Lyons & Ansari, 2015 ; Reigosa‐Crespo et al, 2012 ; Salvador et al, 2019 ; Schwenk et al, 2017 ; Wong & Chan, 2019 ). Moreover, neuroimaging studies have revealed that MLD is indeed associated with brain dysfunction or atypical structures in the IPS (Ashkenazi et al, 2012 ; Isaacs et al, 2001 ; Jolles et al, 2016 ; Mussolin et al, 2010 ; Price et al, 2007 ; Rotzer et al, 2008 ).…”

Section: Introductionmentioning

confidence: 99%

“…This ability is also shown to be anchored in the IPS in the lateral parietal lobe (Dehaene et al, 2003;Piazza et al, 2004;Price et al, 2013Price et al, , 2016Rosenberg-Lee et al, 2011;Schel & Klingberg, 2016). In comparison, individuals with MLD have been shown to suffer from impairments in processing symbolic quantity information and maybe also in nonsymbolic quantity information (Lyons & Ansari, 2015;Reigosa-Crespo et al, 2012;Salvador et al, 2019;Schwenk et al, 2017;Wong & Chan, 2019).…”

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confidence: 98%

Dysfunctions associated with the intraparietal sulcus and a distributed network in individuals with math learning difficulties: An ALE meta‐analysis

Tablante

Krossa

Azimi

et al. 2023

Human Brain Mapping

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Math learning difficulty (MLD) is a learning disorder characterized by persistent impairments in the understanding and application of numbers independent of intelligence or schooling. The current study aims to review existing neuroimaging studies to characterize the neurobiological basis in MLD for their quantity and arithmetic dysfunctions. We identified a total of 24 studies with 728 participants through the literature. Using the activation likelihood estimate (ALE) method, we found that the most consistent neurobiological dysfunction in MLD was observed in the right intraparietal sulcus (IPS) with distinct patterns of the anterior and posterior aspects. Meanwhile, neurobiological dysfunctions were also observed in a distributed network including the fusiform gyrus, inferior temporal gyrus, insula, prefrontal cortex, anterior cingulate cortex, and claustrum. Our results suggest a core dysfunction in the right anterior IPS and left fusiform gyrus with atypically upregulated functions in brain regions for attention, working memory, visual processing, and motivation, serving as the neurobiological basis of MLD.

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Cognitive heterogeneity of math difficulties: A bottom-up classification approach

Cited by 7 publications

References 112 publications

Are Different Types of Learning Disorder Associated With Distinct Cognitive Functioning Profiles?

Are Different Types of Learning Disorder Associated With Distinct Cognitive Functioning Profiles?

Reading and writing words and numbers: Similarities, differences, and implications

Dysfunctions associated with the intraparietal sulcus and a distributed network in individuals with math learning difficulties: An ALE meta‐analysis

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