The neurological basis of developmental dyslexia: An overview and working hypothesis

doi:10.1093/brain/123.12.2373

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Brain, Vol. 123, No. 12, 2373-2399, December 2000
© 2000 Oxford University Press

Review article

The neurological basis of developmental dyslexia

An overview and working hypothesis

Michel Habib

Cognitive Neurology Laboratory, Department of Neurology, CHU Timone, 13385 Marseille, France

Correspondence to: Dr Michel Habib, Centre de recherche, Institut Universitaire de Gériatrie, 4565 Ch. Queen Mary, Montréal (QUE), Canada H3W 1W5 E-mail: rnp{at}romarin.univ-aix.fr

Five to ten per cent of school-age children fail to learn toread in spite of normal intelligence, adequate environment andeducational opportunities. Thus defined, developmental dyslexia(hereafter referred to as dyslexia) is usually considered ofconstitutional origin, but its actual mechanisms are still mysteriousand currently remain the subject of intense research endeavourin various neuroscientific areas and along several theoreticalframeworks. This article reviews evidence accumulated to datethat favours a dysfunction of neural systems known to participatein the normal acquisition and achievement of reading and otherrelated cognitive functions. Historically, the first argumentsfor a neurological basis of dyslexia came from neuropathologicalstudies of brains from dyslexic individuals. These early studies,although open to criticism, for the first time drew attentiontowards a possible abnormality in specific stages of prenatalmaturation of the cerebral cortex and suggested a role of atypicaldevelopment of brain asymmetries. This has prompted a largeamount of subsequent work using in vivo imaging methods in thesame vein. These latter studies, however, have yielded lessclear-cut results than expected, but have globally confirmedsome subtle differences in brain anatomy whose exact significanceis still under investigation. Neuropsychological studies haveprovided considerable evidence that the main mechanism leadingto these children's learning difficulties is phonological innature, namely a basic defect in segmenting and manipulatingthe phoneme constituents of speech. A case has also been madefor impairment in brain visual mechanisms of reading as a possiblecontributing factor. This approach has led to an important conceptualadvance with the suggestion of a specific involvement of onesubsystem of vision pathways (the so-called magnosystem hypothesis).Both phonological and visual hypotheses have received valuablecontribution from modern functional imaging techniques. Resultsof recent PET and functional MRI studies are reported here insome detail. Finally, one attractive interpretation of availableevidence points to dyslexia as a multi-system deficit possiblybased on a fundamental incapacity of the brain in performingtasks requiring processing of brief stimuli in rapid temporalsuccession. It is proposed that this so-called `temporal processingimpairment' theory of dyslexia could also account for at leastsome of the perceptual, motor and cognitive symptoms very oftenassociated with the learning disorder, a coincidence that hasremained unexplained so far.

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				E. D. Bigler, D. F. Tate, E. S. Neeley, L. J. Wolfson, M. J. Miller, S. A. Rice, H. Cleavinger, C. Anderson, H. Coon, S. Ozonoff, et al. Temporal Lobe, Autism, and Macrocephaly AJNR Am. J. Neuroradiol., November 1, 2003; 24(10): 2066 - 2076. [Abstract] [Full Text] [PDF]

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