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Planum temporale asymmetry: In-vivo morphometry affords a new perspective for neuro-behavioral research (1991)

Steinmetz, Helmuth ; Galaburda, Albert M.

Springer

Reading and writing 3 (1991), S. 331-343

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ISSN: 1573-0905

Keywords: Dyslexia ; Reading ; Handedness ; Laterality ; Temporal lobe ; Planum temporale ; Magnetic resonance imaging

Source: Springer Online Journal Archives 1860-2000

Topics: Education

Notes: Abstract High-resolution magnetic resonance (MR) imaging today allows the in vivo quantification of the surface area of the cortex covering the planum temporale and permits assessment of the direction and degree of individual left-right asymmetry of this structure. This methodologic advance is promoting new studies on the biological mechanisms of anatomic and functional lateralization and on the structural accompaniments of disorders such as developmental dyslexia. It is important to stress that studies must agree on the definition and measurement of planum asymmetry, and we review our definition and its justification in the present article. Data obtained from normal subjects supported the assumption that planum (a)symmetry underlies functional lateralization. Thus, familial sinistrality predicted for symmetry of the planum in all eight left-handers studied. The pattern of planum symmetry in the normals was similar to that found in the post mortem studies of dyslexic individuals. Insofar as hand preference and developmental dyslexia are in part genetically transmitted, we suggest that planum symmetry may represent an inherited condition as well. Further-more, even though planum symmetry is part of the anatomic substrate of developmental dyslexia, it is unlikely that it represents a form of developmental anatomic pathology.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00354966

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Individual somatotopy of primary sensorimotor cortex revealed by intermodal matching of MEG, PET, and MRI (1992)

Walter, Henrik ; Kristeva, Rumyana ; Knorr, Uwe ; [et al.]

Springer

Brain topography 5 (1992), S. 183-187

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ISSN: 1573-6792

Keywords: Movement-related neuromagnetic fields ; Movement evoked field I ; Regional cerebral blood flow ; Brain mapping ; Motor activity

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary A method for comparing estimated magnetoencephalographic (MEG) dipole localizations with regional cerebral blood flow (rCBF) activation areas is presented. This approach utilizes individual intermodal matching of MEG data, of rCBF measurements with [15O]-butanol and positron emission tomography (PET), and of anatomical information obtained from magnetic resonance (MR) images. The MEG data and the rCBF measurements were recorded in a healthy subject during right-sided simple voluntary movements of the foot, thumb, index finger, and mouth. High resolution 3D-FLASH MR images of the brain consisting of 128 contiguous sagittal slices of 1.17-mm thickness were used. MEG/MR integration was performed by superimposing the 3D head coordinate system constructed during the MEG measurement onto the MR image data using identical anatomical landmarks as references. PET/MR integration was achieved by a phantom-validated iterative front-to-back-projection algorithm resulting in one integrated MEG/PET/MR image. The estimated dipole locations followed the somatotopic organisation of the task-specific rCBF increases as evident from PET, although they did not match point-to-point. Our results demonstrate that intermodal matching of MEG, PET and MR data provides a tool for relating estimated neuromagnetic field locations to task-specific rCBF changes in individual subjects. Our method offers the perspective of refined dipole modelling.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01129048

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