Clinical neurology and neurosurgery
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Clin Neurol Neurosurg · Sep 2000
Review Case ReportsRuptured cerebral aneurysm in a 39-day-old infant.
A case of middle cerebral artery aneurysm in a 39-day-old infant is discussed. The unique characteristics of aneurysms in the pediatric age group which distinguish them from adults are male predominance, greater frequency in middle cerebral artery and posterior circulation. In addition, they demonstrate a greater frequency of large and giant aneurysms. Theories on the etiology of cerebral aneurysms in children are discussed.
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Clin Neurol Neurosurg · Sep 2000
Differentiation of mechanism and prognosis of traumatic brain stem lesions detected by magnetic resonance imaging in the acute stage.
We retrospectively evaluated the MRI from 17 patients with primary brain stem injury obtained in the acute stage. Clinical and radiological findings were analyzed in these 17 patients. T2-weighted imaging proved to be most sensitive and specific for the diagnosis of primary brain stem injury. ⋯ These acute stage findings are seen only temporally in many cases so that it is most important to examine MRI findings in the acute stage to evaluate the prognosis of the patient. MRI was valuable in predicting the outcome. The possible mechanism of brain stem injury in patients with head injury is briefly discussed.
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Clin Neurol Neurosurg · Sep 2000
Case ReportsDiffusion-weighted imaging demonstrates transient cytotoxic edema involving the corpus callosum in a patient with diffuse brain injury.
Reversible T2 hyperintense signal abnormality in the corpus callosum, although frequently seen after diffuse brain injury, has not been well clarified. With some accumulated evidence, we report a case of diffuse brain injury in a 24-year-old man. Magnetic resonance imaging (MRI) demonstrated T2 hyperintense signals in the trunk and the splenium of the corpus callosum 12 days postinjury. ⋯ Follow-up MRI at 6 months showed complete resolution of the T2 signal abnormalities and of the corresponding decreased diffusion. Considering that diffusion-weighted imaging showed transient decreased diffusion, the lesion in the corpus callosum indicated the existence of cytotoxic edema. Also, transient DWI hyperintensity, namely cytotoxic edema, in the trunk and the splenium of the corpus callosum does not necessarily reveal callosal deficits.