Less developed corpus callosum in dyslexic subjects—a structural MRI study

BACKGROUND Based on previous studies and due to the characteristics of dyslexia as an auditory phonological decoding disorder, we predicted that the shape of the posterior corpus callosum (CC) would differ between dyslexic and control subjects. METHOD Twenty right-handed boys with developmental dyslexia were selected from a carefully screened general population sample (mean age 11 years) and compared to a matched control group. The CC contour was manually traced on the aligned midsagittal MR slice and total callosal area and its subregions were compared between the groups. A statistical shape analysis and subsequent CC classification was performed using a recently developed shape model method. RESULTS The shape analysis revealed shorter CC shape in the dyslexic group, localised in the posterior midbody/isthmus region. This region contains interhemispheric fibers from primary and secondary auditory cortices. A shape length difference larger than a fixed threshold in the posterior midbody region could correctly discriminate between control and dyslexic subject in 78% of the cases, where a dyslexic CC was shorter in this region than a control CC. However, there were no significant group differences with respect to overall CC area or subregions. CONCLUSION A clear shape difference in the posterior midbody of the CC was found between dyslexic and control subjects. This fits with recent other studies that have reported a strong growth factor in this CC region during the late childhood years, coinciding with literacy acquisition. Our results show that the dyslexic group has not undergone the same growth pattern as the normal reading group.

[1]  Torleiv Høien,et al.  Magnetic resonance imaging of the corpus callosum in developmental dyslexia , 1992 .

[2]  J C Rajapakse,et al.  A quantitative MRI study of the corpus callosum in children and adolescents. , 1996, Brain research. Developmental brain research.

[3]  C Riccio,et al.  Dyslexia and corpus callosum morphology. , 1995, Archives of neurology.

[4]  Torleiv Høien,et al.  MRI evaluation of the size and symmetry of the planum temporale in adolescents with developmental dyslexia , 1990, Brain and Language.

[5]  Milan Sonka,et al.  Learning Shape Models from Examples Using Automatic Shape Clustering and Procrustes Analysis , 1999, IPMI.

[6]  P. Tallal,et al.  Defects of Non-Verbal Auditory Perception in Children with Developmental Aphasia , 1973, Nature.

[7]  F. Robichon,et al.  Abnormal Callosal Morphology in Male Adult Dyslexics: Relationships to Handedness and Phonological Abilities , 1998, Brain and Language.

[8]  D. Wechsler Wechsler Intelligence Scale for Children , 2020, Definitions.

[9]  R. Holloway,,et al.  Sexual dimorphism in the human corpus callosum. , 1982, Science.

[10]  H. Lubs,et al.  Neuroanatomic differences between dyslexic and normal readers on magnetic resonance imaging scans. , 1991, Archives of neurology.

[11]  E. Ross,et al.  Topography of the Human Corpus Callosum , 1985, Journal of neuropathology and experimental neurology.

[12]  P. Bentler,et al.  Cognition and the corpus callosum: verbal fluency, visuospatial ability, and language lateralization related to midsagittal surface areas of callosal subregions. , 1992, Behavioral neuroscience.

[13]  Steven L. Miller,et al.  Temporal Processing Deficits of Language-Learning Impaired Children Ameliorated by Training , 1996, Science.

[14]  A. Castro-Caldas,et al.  Influence of learning to read and write on the morphology of the corpus callosum , 1999, European journal of neurology.

[15]  A. Beaton,et al.  The Relation of Planum Temporale Asymmetry and Morphology of the Corpus Callosum to Handedness, Gender, and Dyslexia: A Review of the Evidence , 1997, Brain and Language.

[16]  I. Lundberg,et al.  A Strategy for Assessing Problems in Word Recognition among Dyslexics , 1989 .

[17]  Jean-François Démonet,et al.  Developmental Dyslexia: Re-Evaluation of the Corpus callosum in Male Adults , 2000, European Neurology.

[18]  A. Lundervold,et al.  Planum temporale, planum parietale and dichotic listening in dyslexia , 2000, Neuropsychologia.

[19]  J C Gore,et al.  Automated measurement of latent morphological features in the human corpus callosum , 2001, Human brain mapping.

[20]  N. Geschwind,et al.  Human Brain: Left-Right Asymmetries in Temporal Speech Region , 1968, Science.

[21]  H. Nordby,et al.  Central auditory processing, MRI morphometry and brain laterality: applications to dyslexia. , 1998, Scandinavian audiology. Supplementum.

[22]  R W Cox,et al.  AFNI: software for analysis and visualization of functional magnetic resonance neuroimages. , 1996, Computers and biomedical research, an international journal.

[23]  L. Jäncke,et al.  The relation between forebrain volume and midsagittal size of the corpus callosum in children. , 1999, Neuroreport.

[24]  J. Rilling,et al.  Differential rearing affects corpus callosum size and cognitive function of rhesus monkeys , 1998, Brain Research.

[25]  Judith M. Rumsey,et al.  Corpus callosum morphology, as measured with MRI, in dyslexic men , 1996, Biological Psychiatry.

[26]  Guinevere F. Eden,et al.  Neural Systems Affected in Developmental Dyslexia Revealed by Functional Neuroimaging , 1998, Neuron.

[27]  P. Filipek,et al.  Neuroimaging in the developmental disorders: the state of the science. , 1999, Journal of child psychology and psychiatry, and allied disciplines.

[28]  Jerry L Prince,et al.  A computerized approach for morphological analysis of the corpus callosum. , 1996, Journal of computer assisted tomography.

[29]  V. Swayze,et al.  Two Hemispheres—One Brain: Functions of the Corpus Callosum , 1987 .

[30]  Fred L. Bookstein,et al.  Landmark methods for forms without landmarks: morphometrics of group differences in outline shape , 1997, Medical Image Anal..

[31]  A. Scheibel,et al.  Fiber composition of the human corpus callosum , 1992, Brain Research.

[32]  Alan C. Evans,et al.  Growth patterns in the developing brain detected by using continuum mechanical tensor maps , 2000, Nature.

[33]  Arvid Lundervold,et al.  Volume distribution of cerebrospinal fluid using multispectral MR imaging , 2000, Medical Image Anal..

[34]  R. Rauch,et al.  Variability of corpus callosal area measurements from midsagittal MR images: effect of subject placement within the scanner. , 1996, AJNR. American journal of neuroradiology.

[35]  W. Brown,et al.  Callosal Transfer of Finger Localization Information in Phonologically Dyslexic Adults , 1996, Cortex.

[36]  P. Michie,et al.  Processing of tactile stimuli and implications for the reading disabled , 1993, Neuropsychologia.

[37]  Richard O. Duda,et al.  Pattern classification and scene analysis , 1974, A Wiley-Interscience publication.

[38]  C. Njiokiktjien,et al.  Callosal size in children with learning disabilities , 1994, Behavioural Brain Research.

[39]  J H Simon,et al.  Brain morphometry in reading-disabled twins , 1999, Neurology.

[40]  M. Annett The Binomial Distribution of Right, Mixed and Left Handedness , 1967, The Quarterly journal of experimental psychology.

[41]  Anil K. Jain,et al.  Automatic Construction of 2D Shape Models , 2001, IEEE Trans. Pattern Anal. Mach. Intell..

[42]  P. Renshaw,et al.  Attention-deficit hyperactivity disorder: magnetic resonance imaging morphometric analysis of the corpus callosum. , 1994, Journal of the American Academy of Child and Adolescent Psychiatry.

[43]  S. F. Witelson Hand and sex differences in the isthmus and genu of the human corpus callosum. A postmortem morphological study. , 1989, Brain : a journal of neurology.

[44]  K. Mardia,et al.  Statistical Shape Analysis , 1998 .

[45]  Torleiv Høien,et al.  Dyslexia: From Theory to Intervention , 2000 .

[46]  Naftali Raz,et al.  The influence of sex, age, and handedness on corpus callosum morphology: A meta-analysis , 1995, Psychobiology.

[47]  N. Geschwind Language and the brain. , 1972, Scientific American.

[48]  Lutz Jäncke,et al.  Anatomical left‐right asymmetry of language‐related temporal cortex is different in left‐ and right‐handers , 1991, Annals of neurology.