How many deficits in the same dyslexic brains? A behavioural and fMRI assessment of comorbidity in adult dyslexics

Dyslexia can have different manifestations: this has motivated different theories on its nature, on its underlying brain bases and enduring controversies on how to best treat it. The relative weight of the different manifestations has never been evaluated using both behavioural and fMRI measures, a...

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Veröffentlicht in:	Cortex 2017-12, Vol.97, p.125-142
Hauptverfasser:	Danelli, Laura, Berlingeri, Manuela, Bottini, Gabriella, Borghese, Nunzio A., Lucchese, Mirko, Sberna, Maurizio, Price, Cathy J., Paulesu, Eraldo
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Sprache:	eng
Schlagworte:	Adolescent Brain - diagnostic imaging Brain - physiopathology Comorbidity Developmental dyslexia Disconnection hypothesis Dyslexia - diagnostic imaging Dyslexia - physiopathology Dyslexia - psychology Female fMRI Humans Magnetic Resonance Imaging Male Motion Perception - physiology Occipito-temporal cortex Reading Visual Perception - physiology Young Adult
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description	Dyslexia can have different manifestations: this has motivated different theories on its nature, on its underlying brain bases and enduring controversies on how to best treat it. The relative weight of the different manifestations has never been evaluated using both behavioural and fMRI measures, a challenge taken here to assess the major systems called into play in dyslexia by different theories. We found that adult well-compensated dyslexics were systematically impaired only in reading and in visuo-phonological tasks, while deficits for other systems (e.g., motor/cerebellar, visual magnocellular/motion perception) were only very occasional. In line with these findings, fMRI showed a reliable hypoactivation only for the task of reading, in the left occipito-temporal cortex (l-OTC). The l-OTC, normally a crossroad between the reading system and other systems, did not show the same level of intersection in dyslexics; yet, it was not totally silent because it responded, in segregated parts, during auditory phonological and visual motion perception tasks. This minimal behavioural and functional anatomical comorbidity demonstrates that a specific deficit of reading is the best description for developmental dyslexia, at least for adult well-compensated cases, with clear implications for rehabilitation strategies. The reduced intersection of multiple systems in the l-OTC suggests that dyslexics suffer from a coarser connectivity, leading to disconnection between the multiple domains that normally interact during reading.
doi_str_mv	10.1016/j.cortex.2017.08.038
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We found that adult well-compensated dyslexics were systematically impaired only in reading and in visuo-phonological tasks, while deficits for other systems (e.g., motor/cerebellar, visual magnocellular/motion perception) were only very occasional. In line with these findings, fMRI showed a reliable hypoactivation only for the task of reading, in the left occipito-temporal cortex (l-OTC). The l-OTC, normally a crossroad between the reading system and other systems, did not show the same level of intersection in dyslexics; yet, it was not totally silent because it responded, in segregated parts, during auditory phonological and visual motion perception tasks. This minimal behavioural and functional anatomical comorbidity demonstrates that a specific deficit of reading is the best description for developmental dyslexia, at least for adult well-compensated cases, with clear implications for rehabilitation strategies. 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subjects	Adolescent Brain - diagnostic imaging Brain - physiopathology Comorbidity Developmental dyslexia Disconnection hypothesis Dyslexia - diagnostic imaging Dyslexia - physiopathology Dyslexia - psychology Female fMRI Humans Magnetic Resonance Imaging Male Motion Perception - physiology Occipito-temporal cortex Reading Visual Perception - physiology Young Adult
title	How many deficits in the same dyslexic brains? A behavioural and fMRI assessment of comorbidity in adult dyslexics
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