Problems with visual statistical learning in developmental dyslexia

Sigurdardottir, Heida Maria; Daníelsdóttir, Hilda Björk; Guðmundsdóttir, Margrét Lilja; Hjartarson, Kristján Helgi; Þórarinsdóttir, Elín Ástrós; Kristjánsson, Árni

doi:10.1038/s41598-017-00554-5

Cited by 59 publications

(61 citation statements)

References 122 publications

(135 reference statements)

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“…For instance, pure alexia is a selective disorder of reading and occurs as a consequence of damage to the left occipitotemporal cortex-the so-called visual word form area (VWFA; Dehaene & Cohen, 2011 disputed the selectivity of this disorder by demonstrating that individuals with pure alexia are also impaired in recognizing other visual stimuli (Behrmann, Nelson, & Sekuler, 1998;Roberts et al, 2013;Roberts et al, 2015), which also elicit activation in the VWFA in neurologically intact participants (for review and a computational implementation, see , 2014Price & Devlin, 2011). Interestingly, individuals with DD have also been reported to show a hypo-activation of the VWFA and an impairment in processing non-verbal visual stimuli (e.g., Sigurdardottir et al, 2017) as, for instance, faces (e.g., Gabay et al, 2017). The measure of processing speed in WISC-IV uses non-verbal visual stimuli and the difficulties shown by children with DD on this task confirm a domain general impairment, supporting the predications of the triangle model (Woollams, 2014).…”

Section: Discussionmentioning

confidence: 99%

Are children with developmental dyslexia all the same? A cluster analysis with more than 300 cases

et al. 2019

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Reading is vital to every aspect of modern life, exacerbated by reliance of the internet, email, and social media on the written medium. Developmental dyslexia (DD) characterizes a disorder in which the core deficit involves reading. Traditionally, DD is thought to be associated with a phonological impairment. However, recent evidence has begun to suggest that the reading impairment in some individuals is provoked by a visual processing deficit. In this paper, we present WISC‐IV data from more than 300 Italian children with a diagnosis of DD to investigate the manifestation of phonological and visual subtypes. Our results indicate the existence of two clusters of children with DD. In one cluster, the deficit was more pronounced in the phonological component, while both clusters were impaired in visual processing. These data indicate that DD may be an umbrella term that encompasses different profiles. From a theoretical perspective, our results demonstrate that dyslexia cannot be explained in terms of an isolated phonological deficit alone; visual impairment plays a crucial role. Moreover, general rather than specific accounts of DD are discussed.

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Section: Discussionmentioning

confidence: 99%

Are children with developmental dyslexia all the same? A cluster analysis with more than 300 cases

et al. 2019

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“…Frost et al (2013) found that, in English L1 speakers, SL positively correlated with the ability to learn the structural properties of Hebrew (L2), a Semitic language that follows different statistical properties than those usually found in Indo-European languages. In addition to these studies, the link between SL and literacy is supported by the finding that individuals with dyslexia seem to show SL impairments (e.g., Gabay, Thiessen, & Holt, 2015;Sigurdardottir et al, 2017;but see R€ usseler, Gerth, & M€ unte, 2006).…”

Section: Introductionmentioning

confidence: 95%

Visual Statistical Learning With Stimuli Presented Sequentially Across Space and Time in Deaf and Hearing Adults

Giustolisi

Emmorey

2018

Cognitive Science

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This study investigated visual statistical learning (VSL) in 24 deaf signers and 24 hearing non-signers. Previous research with hearing individuals suggests that SL mechanisms support literacy. Our first goal was to assess if VSL was associated with reading ability in deaf individuals, and if this relation was sustained by a link between VSL and sign language skill. Our second goal was to test the Auditory Scaffolding Hypothesis, which makes the prediction that deaf people should be impaired in sequential processing tasks. For the VSL task, we adopted a modified version of the triplet learning paradigm, with stimuli presented sequentially across space and time. Results revealed that measures of sign language skill (sentence comprehension/repetition) did not correlate with VSL scores, possibly due to the sequential nature of our VSL task. Reading comprehension scores (PIAT-R) were a significant predictor of VSL accuracy in hearing but not deaf people. This finding might be due to the sequential nature of the VSL task and to a less salient role of the sequential orthography-to-phonology mapping in deaf readers compared to hearing readers. The two groups did not differ in VSL scores. However when reading ability was taken into account, VSL scores were higher for the deaf group than the hearing group. Overall, this evidence is inconsistent with the Auditory Scaffolding Hypothesis, suggesting that humans can develop efficient sequencing abilities even in the absence of sound.

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“…Here also, the prediction is that a SL deficit may explain some of the difficulties these populations have with language processing and that they would therefore be characterized by impaired SL abilities. Special focus was directed to estimating SL abilities of individuals with dyslexia (Gabay, Thiessen, & Holt, ; Kahta & Schiff, ; Sigurdardottir et al, ), specific language impairment (Mainela‐Arnold & Evans, ), and agrammatism (Christiansen, Louise Kelly, Shillcock, & Greenfield, ), all reporting some degree of impaired SL performance among these clinical samples (see Saffran, for review). Together, then, all of these individual‐differences studies point to a clear pattern, supporting the involvement of SL in language…”

Section: Introductionmentioning

confidence: 99%

Statistical learning abilities and their relation to language

Siegelman

2019

Language and Linguist. Compass

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Numerous studies on statistical learning (SL) have demonstrated humans' sensitivity to complex statistical properties in their sensory environment. These observations have had a profound impact on the study of language, highlighting statistical aspects of the linguistic input that can be learned from experience, leading to the widespread claim that SL plays a key role in language acquisition and processing. But how can this theorized link be experimentally demonstrated? One increasingly popular avenue comes from studies of individual differences, which tie individual variability in SL to variance in linguistic behavior. This review presents the theoretical advances stemming from this line of research, as well as some of the challenges it currently faces. It contends that while previous studies had an important role in establishing the existence of some coarse‐grained link between SL and language, recent developments in SL research suggest that the exact nature of this relationship is more complex than originally conceived and is still far from being fully understood. I specifically discuss three outstanding challenges: (a) understanding individual differences in light of the componential nature of SL, (b) mapping the full array of SL processes given the complexity of real‐world statistics, and (c) estimating the strength of current empirical evidence while taking into account both positive and null findings. Confronting these issues, I argue, is a necessary step towards a full theory of the role of SL across language.

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Problems with visual statistical learning in developmental dyslexia

Cited by 59 publications

References 122 publications

Are children with developmental dyslexia all the same? A cluster analysis with more than 300 cases

Are children with developmental dyslexia all the same? A cluster analysis with more than 300 cases

Visual Statistical Learning With Stimuli Presented Sequentially Across Space and Time in Deaf and Hearing Adults

Statistical learning abilities and their relation to language

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