Analysis of the Cerebral Cortex in Holoprosencephaly with Attention to the Sylvian Fissures
A. James Barkovicha,b,d,
Erin M. Simona,c,d,
Nancy J. Clegga,d,
Steven L. Kinsmana,d and
Jin S. Hahna,d
a Department of Diagnostic Radiology, University of California, San Francisco, San Francisco, CAI
b Department of Neurology and Pediatrics, University of California, San Francisco, San Francisco, CA
c Department of Radiology, Children’s Hospital of Philadelphia, Philadelphia, PA
d The Carter Centers for Brain Research in Holoprosencephaly and Related Malformations
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FIG 1. Axial spin-echo (3000/120 [TR/TE]) MR image shows the sylvian angle in a healthy neonate. Black lines are drawn tangential to the sylvian fissures at the level of the basal ganglia. The anterior angle is the sylvian angle.
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FIG 2. MR images show two cases of mild HPE. Both cases were classified as lobar HPE and have sylvian angles of 25°. Both have small, dysplastic frontal horns and both have a large amount of brain tissue anterior to the sylvian fissures.
A and B, Spin-echo (2500/120) MR images show normal-appearing sulci and gyri in the posterior two-thirds.
C and D, Inversion-recovery (2000/800/inversion time, 12 ms) MR images show normal-appearing sulci and gyri in the posterior half. The medial frontal sulci appear dysplastic.
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FIG 3. Spin-echo (3000/120) MR image shows HPE of moderate severity, classified as less dysplastic semilobar HPE. The sylvian angle is 95°, and little brain tissue lies anterior to the sylvian fissures.
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FIG 4. A and B, Spin-echo (3000/120) MR images show HPE of moderate severity, classified as less dysplastic semilobar HPE. The sylvian angle is 110°. Only two gyri (solid white arrows) are positioned between the sylvian fissures anteriorly. The basal ganglia are less well developed than those shown in Figure 3, being only a crescent of gray matter anterior to the thalami in B. A thin curvilinear area of gray matter hypointensity (small black arrows, B) is seen between the basal ganglia and presumed insula; this is thought to represent claustrum. Two foci of hypointensity (open white arrows, A) are seen posterior to the basal ganglia crescent but anterior to the thalami in A. These are thought to represent myelinated white matter in the internal capsules.
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FIG 5. Fast spin-echo (3600/95) MR image shows HPE of moderate severity, classified as more dysplastic semilobar HPE. The anteriormost portion of the cerebrum appears to be a single continuous sylvian fissure. This fissure appears to be composed of the posterior halves of two sylvian fissures, with bilateral posterior opercula (arrows) forming the lateral borders, as if the anterior halves of the fissures had never formed and the posterior halves merged together.
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FIG 6. Spin-echo (2500/70) MR image shows severe HPE. No sylvian fissures are identified and, thus, no sylvian angle measured. Gyri have normal, uniform width, and sulci have normal, uniform depth. No specific gyri or sulci are identified.
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FIG 7. MR images show HPE of moderate severity, classified as less dysplastic semilobar. The sylvian angle is 55°.
A, Axial fast spin-echo (4000/84) MR image shows that a mushroom-shaped region of brain (arrowheads) grows anteriorly from the region between the anterior aspects of the sylvian fissures.
B, Coronal spoiled gradient-recalled acquisition in a steady state (36/13) MR images show the large mushroom-shaped region (arrows, B) lying below the remainder of the cerebrum in the most anterior aspect of the calvaria.
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FIG 8. MR images show severe HPE, classified as alobar, with sylvian angle of 135°. First impression of the cerebral cortex is one of pachygyria, but the cortical thickness measures only 3 mm. The cortex appears thick because of the profound microcephaly. This case illustrates some of the difficulties of the DeMyer classification, as the interhemispheric fissure and ventricular systems are much better developed than the basal ganglia and white matter. The basal ganglia, might be considered alobar HPE, but the interhemispheric development suggests mild semilobar HPE.
A, Axial fast spin-echo (4000/90) MR image shows apparently thickened cortex with few gyri and shallow sulci. Thalami are incompletely separated, and no basal ganglia are seen, nor were they seen at other levels.
B, Axial fast spin-echo (4000/90) MR image obtained at a higher level shows an interhemispheric fissure spanning the posterior two-thirds of the cerebrum; the falx cerebri (arrows) is present posteriorly.
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FIG 9. A and B, Spin-echo (700/16) MR images show mild HPE, classified as lobar, with a sylvian angle of 25°. Axial (A) and sagittal (B) views show curvilinear subcortical heterotopia (solid arrows) in the anterior cerebrum. The heterotopia connect with the overlying cortex in several places (open arrow). The overlying cortex is thin with shallow sulci.
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