Michel Habib scite author profile

The recognition of dyslexia as a neurodevelopmental disorder has been hampered by the belief that it is not a specific diagnostic entity because it has variable and culture-specific manifestations. In line with this belief, we found that Italian dyslexics, using a shallow orthography which facilitates reading, performed better on reading tasks than did English and French dyslexics. However, all dyslexics were equally impaired relative to their controls on reading and phonological tasks. Positron emission tomography scans during explicit and implicit reading showed the same reduced activity in a region of the left hemisphere in dyslexics from all three countries, with the maximum peak in the middle temporal gyrus and additional peaks in the inferior and superior temporal gyri and middle occipital gyrus. We conclude that there is a universal neurocognitive basis for dyslexia and that differences in reading performance among dyslexics of different countries are due to different orthographies.

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

Habib¹

2000

542

329

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Five to ten per cent of school-age children fail to learn to read in spite of normal intelligence, adequate environment and educational opportunities. Thus defined, developmental dyslexia (hereafter referred to as dyslexia) is usually considered of constitutional origin, but its actual mechanisms are still mysterious and currently remain the subject of intense research endeavour in various neuroscientific areas and along several theoretical frameworks. This article reviews evidence accumulated to date that favours a dysfunction of neural systems known to participate in the normal acquisition and achievement of reading and other related cognitive functions. Historically, the first arguments for a neurological basis of dyslexia came from neuropathological studies of brains from dyslexic individuals. These early studies, although open to criticism, for the first time drew attention towards a possible abnormality in specific stages of prenatal maturation of the cerebral cortex and suggested a role of atypical development of brain asymmetries. This has prompted a large amount of subsequent work using in vivo imaging methods in the same vein. These latter studies, however, have yielded less clear-cut results than expected, but have globally confirmed some subtle differences in brain anatomy whose exact significance is still under investigation. Neuropsychological studies have provided considerable evidence that the main mechanism leading to these children's learning difficulties is phonological in nature, namely a basic defect in segmenting and manipulating the phoneme constituents of speech. A case has also been made for impairment in brain visual mechanisms of reading as a possible contributing factor. This approach has led to an important conceptual advance with the suggestion of a specific involvement of one subsystem of vision pathways (the so-called magnosystem hypothesis). Both phonological and visual hypotheses have received valuable contribution from modern functional imaging techniques. Results of recent PET and functional MRI studies are reported here in some detail. Finally, one attractive interpretation of available evidence points to dyslexia as a multi-system deficit possibly based on a fundamental incapacity of the brain in performing tasks requiring processing of brief stimuli in rapid temporal succession. It is proposed that this so-called 'temporal processing impairment' theory of dyslexia could also account for at least some of the perceptual, motor and cognitive symptoms very often associated with the learning disorder, a coincidence that has remained unexplained so far.

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Cultural diversity and biological unity in dyslexia

Paulesu¹,

Démonet²,

Fazio³

et al. 2001

NeuroImage

186

246

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Effects of handedness and sex on the morphology of the corpus callosum: A study with brain magnetic resonance imaging

Habib¹,

Gayraud²,

Oliva

et al. 1991

Brain and Cognition

241

174

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Pure Topographical Disorientation: A Definition and Anatomical Basis

Habib¹,

Sirigu²

1987

Cortex

308

121

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Four patients showing the syndrome of "topographical disorientation" are reported. Patients became unable to find their way, especially in unfamiliar surroundings, following a single lesion in the territory of the right posterior cerebral artery, as evidenced on CT-scan. Associated disturbances included: left hemianopia, mild face recognition problems, and various degree of impairment in face-learning and visual maze-learning tasks. Language, visuo-perceptive and constructional abilities, object and picture recognition were intact. Memory tests only showed a mild, generally non-significant, impairment of visual memory. As inferred from the lesion located in the 4 patients, this syndrome seems to be strongly related to damage to the right parahippocampal gyrus, a structure that thus appears crucial for specifically storing and/or retrieving visual information necessary to achieve orientation in the locomotor environment.

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Michel Habib

Dyslexia: Cultural Diversity and Biological Unity

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

Cultural diversity and biological unity in dyslexia

Effects of handedness and sex on the morphology of the corpus callosum: A study with brain magnetic resonance imaging

Pure Topographical Disorientation: A Definition and Anatomical Basis

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