Phonological deficits in dyslexia impede lexical processing of spoken words: Linking behavioural and MEG data

Julia W. Schwarz; Mikel Lizarazu; Marie Lallier; Anastasia Klimovich-Gray

doi:10.17605/OSF.IO/HXCY6

Phonological deficits in dyslexia impede lexical processing of spoken words: Linking behavioural and MEG data

Julia W. Schwarz, Mikel Lizarazu, Marie Lallier, Anastasia Klimovich-Gray

Research output: Contribution to journal › Article › peer-review

Abstract

Phonological difficulties have been identified as a core deficit in developmental dyslexia, yet everyday speech comprehension, which relies on phonological processing, is seemingly unaffected. This raises the question as to how dyslexic readers process spoken words to achieve normal word comprehension. Here we establish a link between neural correlates of lexical and sublexical processing in auditory words and behaviourally measured phonological deficits using magnetoencephalography (MEG). Spatiotemporally resolved cortical responses to phonological and lexico-semantic information were computed with the event-related regression technique (Hauk et al., 2009) and correlated with dyslexic and non-dyslexic subjects’ phonological skills. We found that phonological deficits reduced cortical responses to both phonological and lexico-semantic information (phonological neighbours and word frequency). Individuals with lower phonological skills – independent of dyslexia diagnosis – showed weaker neural responses to phonological neighbourhood information in both hemispheres 200-500 ms after word onset and reduced sensitivity to written and spoken word frequency between 200-650 ms. Dyslexic readers showed weaker responses to written word frequency in particular compared to the control group, pointing towards an additional effect of print exposure on auditory word processing. Source space analysis localised phonological and lexico-semantic effect peaks to the left superior temporal gyrus, a key area that has been related to core deficits in dyslexia across a range of neuroimaging studies. The results provide comprehensive evidence that phonological deficits impact both sublexical and lexical stages of spoken word processing and that these deficits cannot be fully compensated through neural reorganization of lexical-distributional information at the single word level. Theoretical and practical implications for typical readers, dyslexic readers, and readers with developmental language disorder are discussed.

Original language	English
Journal	Cortex
DOIs	https://doi.org/10.17605/OSF.IO/HXCY6
Publication status	Accepted/In press - 6 Oct 2023

Bibliographical note

Acknowledgements
We thank Nicola Molinaro for sharing the data and input on the conceptualisation of the study, Olaf Hauk for assistance with the ERRC methods, Efthymia Kapnoula for help with the auditory stimuli, Mirjana Bozic and Brechtje Post for feedback on the manuscript, and Manuel Carreiras, Marıa Paz Suarez Coalla and Fernando Cuetos for the recruitment of participants.
Funding
This research was funded by an ESRC Overseas Institutional Visit research grant to JS (RG84395 JAAG/021), a UKRI grant to JS (ES/J500033/1), a Gates Cambridge Scholarship to JS (Gates Cambridge Trust), a Juan de la Cierva grant to MK (IJC2020-042886-I), the Basque Government BERC 2022-2025 program, and the Spanish State Research Agency through BCBL Severo Ochoa excellence accreditation (CEX2020-001010-S).

Data Availability Statement

Data Availability
The data and analysis protocols presented in this study can be found on the Open Science Framework (OSF), “Spoken Word Processing in Dyslexia”, https://doi.org/10.17605/OSF.IO/FEPDU.

Keywords

Neurodevelopmental Conditions of Language
Developmental Dyslexia
Magnetoencephalograph y
Phonological Deficits
Spoken Word Processing
Phonological Neighbourhood
Word Frequency

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Cite this

@article{561112e82415480980d8f45a27fab753,

title = "Phonological deficits in dyslexia impede lexical processing of spoken words: Linking behavioural and MEG data",

abstract = "Phonological difficulties have been identified as a core deficit in developmental dyslexia, yet everyday speech comprehension, which relies on phonological processing, is seemingly unaffected. This raises the question as to how dyslexic readers process spoken words to achieve normal word comprehension. Here we establish a link between neural correlates of lexical and sublexical processing in auditory words and behaviourally measured phonological deficits using magnetoencephalography (MEG). Spatiotemporally resolved cortical responses to phonological and lexico-semantic information were computed with the event-related regression technique (Hauk et al., 2009) and correlated with dyslexic and non-dyslexic subjects{\textquoteright} phonological skills. We found that phonological deficits reduced cortical responses to both phonological and lexico-semantic information (phonological neighbours and word frequency). Individuals with lower phonological skills – independent of dyslexia diagnosis – showed weaker neural responses to phonological neighbourhood information in both hemispheres 200-500 ms after word onset and reduced sensitivity to written and spoken word frequency between 200-650 ms. Dyslexic readers showed weaker responses to written word frequency in particular compared to the control group, pointing towards an additional effect of print exposure on auditory word processing. Source space analysis localised phonological and lexico-semantic effect peaks to the left superior temporal gyrus, a key area that has been related to core deficits in dyslexia across a range of neuroimaging studies. The results provide comprehensive evidence that phonological deficits impact both sublexical and lexical stages of spoken word processing and that these deficits cannot be fully compensated through neural reorganization of lexical-distributional information at the single word level. Theoretical and practical implications for typical readers, dyslexic readers, and readers with developmental language disorder are discussed.",

keywords = "Neurodevelopmental Conditions of Language, Developmental Dyslexia, Magnetoencephalograph y, Phonological Deficits, Spoken Word Processing, Phonological Neighbourhood, Word Frequency",

author = "Schwarz, {Julia W.} and Mikel Lizarazu and Marie Lallier and Anastasia Klimovich-Gray",

note = "Acknowledgements We thank Nicola Molinaro for sharing the data and input on the conceptualisation of the study, Olaf Hauk for assistance with the ERRC methods, Efthymia Kapnoula for help with the auditory stimuli, Mirjana Bozic and Brechtje Post for feedback on the manuscript, and Manuel Carreiras, Marıa Paz Suarez Coalla and Fernando Cuetos for the recruitment of participants. Funding This research was funded by an ESRC Overseas Institutional Visit research grant to JS (RG84395 JAAG/021), a UKRI grant to JS (ES/J500033/1), a Gates Cambridge Scholarship to JS (Gates Cambridge Trust), a Juan de la Cierva grant to MK (IJC2020-042886-I), the Basque Government BERC 2022-2025 program, and the Spanish State Research Agency through BCBL Severo Ochoa excellence accreditation (CEX2020-001010-S).",

year = "2023",

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language = "English",

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T1 - Phonological deficits in dyslexia impede lexical processing of spoken words

T2 - Linking behavioural and MEG data

AU - Schwarz, Julia W.

AU - Lizarazu, Mikel

AU - Lallier, Marie

AU - Klimovich-Gray, Anastasia

N1 - Acknowledgements We thank Nicola Molinaro for sharing the data and input on the conceptualisation of the study, Olaf Hauk for assistance with the ERRC methods, Efthymia Kapnoula for help with the auditory stimuli, Mirjana Bozic and Brechtje Post for feedback on the manuscript, and Manuel Carreiras, Marıa Paz Suarez Coalla and Fernando Cuetos for the recruitment of participants. Funding This research was funded by an ESRC Overseas Institutional Visit research grant to JS (RG84395 JAAG/021), a UKRI grant to JS (ES/J500033/1), a Gates Cambridge Scholarship to JS (Gates Cambridge Trust), a Juan de la Cierva grant to MK (IJC2020-042886-I), the Basque Government BERC 2022-2025 program, and the Spanish State Research Agency through BCBL Severo Ochoa excellence accreditation (CEX2020-001010-S).

PY - 2023/10/6

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N2 - Phonological difficulties have been identified as a core deficit in developmental dyslexia, yet everyday speech comprehension, which relies on phonological processing, is seemingly unaffected. This raises the question as to how dyslexic readers process spoken words to achieve normal word comprehension. Here we establish a link between neural correlates of lexical and sublexical processing in auditory words and behaviourally measured phonological deficits using magnetoencephalography (MEG). Spatiotemporally resolved cortical responses to phonological and lexico-semantic information were computed with the event-related regression technique (Hauk et al., 2009) and correlated with dyslexic and non-dyslexic subjects’ phonological skills. We found that phonological deficits reduced cortical responses to both phonological and lexico-semantic information (phonological neighbours and word frequency). Individuals with lower phonological skills – independent of dyslexia diagnosis – showed weaker neural responses to phonological neighbourhood information in both hemispheres 200-500 ms after word onset and reduced sensitivity to written and spoken word frequency between 200-650 ms. Dyslexic readers showed weaker responses to written word frequency in particular compared to the control group, pointing towards an additional effect of print exposure on auditory word processing. Source space analysis localised phonological and lexico-semantic effect peaks to the left superior temporal gyrus, a key area that has been related to core deficits in dyslexia across a range of neuroimaging studies. The results provide comprehensive evidence that phonological deficits impact both sublexical and lexical stages of spoken word processing and that these deficits cannot be fully compensated through neural reorganization of lexical-distributional information at the single word level. Theoretical and practical implications for typical readers, dyslexic readers, and readers with developmental language disorder are discussed.

AB - Phonological difficulties have been identified as a core deficit in developmental dyslexia, yet everyday speech comprehension, which relies on phonological processing, is seemingly unaffected. This raises the question as to how dyslexic readers process spoken words to achieve normal word comprehension. Here we establish a link between neural correlates of lexical and sublexical processing in auditory words and behaviourally measured phonological deficits using magnetoencephalography (MEG). Spatiotemporally resolved cortical responses to phonological and lexico-semantic information were computed with the event-related regression technique (Hauk et al., 2009) and correlated with dyslexic and non-dyslexic subjects’ phonological skills. We found that phonological deficits reduced cortical responses to both phonological and lexico-semantic information (phonological neighbours and word frequency). Individuals with lower phonological skills – independent of dyslexia diagnosis – showed weaker neural responses to phonological neighbourhood information in both hemispheres 200-500 ms after word onset and reduced sensitivity to written and spoken word frequency between 200-650 ms. Dyslexic readers showed weaker responses to written word frequency in particular compared to the control group, pointing towards an additional effect of print exposure on auditory word processing. Source space analysis localised phonological and lexico-semantic effect peaks to the left superior temporal gyrus, a key area that has been related to core deficits in dyslexia across a range of neuroimaging studies. The results provide comprehensive evidence that phonological deficits impact both sublexical and lexical stages of spoken word processing and that these deficits cannot be fully compensated through neural reorganization of lexical-distributional information at the single word level. Theoretical and practical implications for typical readers, dyslexic readers, and readers with developmental language disorder are discussed.

KW - Neurodevelopmental Conditions of Language

KW - Developmental Dyslexia

KW - Magnetoencephalograph y

KW - Phonological Deficits

KW - Spoken Word Processing

KW - Phonological Neighbourhood

KW - Word Frequency

U2 - 10.17605/OSF.IO/HXCY6

DO - 10.17605/OSF.IO/HXCY6

M3 - Article

C2 - 38029653

SN - 0010-9452

JO - Cortex

JF - Cortex

ER -

Phonological deficits in dyslexia impede lexical processing of spoken words: Linking behavioural and MEG data

Abstract

Bibliographical note

Data Availability Statement

Keywords

Access to Document

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