Optimization of gray/white matter contrast with fast inversion recovery for myelin suppression: a comparison of fast spin-echo and echo-planar MR imaging sequences.
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We compared two MR imaging sequences, fast inversion recovery for myelin suppression (FIRMS) and echo-planar FIRMS (EP-FIRMS), for depicting gray/white matter contrast. In 18 patients, the frequency bandwidth (BW) was optimized for each sequence; in nine patients, the BW was held constant. In the BW-optimized group, the mean contrast-to-noise ratio (C/N) was three times higher with the FIRMS sequence. In the BW-constant group, the mean C/N was 27% higher with the EP-FIRMS sequence; however, geometric distortion degraded the EP-FIRMS images excessively. For optimal gray/white contrast, FIRMS appears to be the superior pulse sequence. (+info)
Increased neurovirulence of polytropic mouse retroviruses delivered by inoculation of brain with infected neural stem cells.
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Following intraperitoneal (IP) inoculation of neonatal mice, the polytropic recombinant murine leukemia virus (MuLV), Fr98, induces a severe brain disease characterized by ataxia, seizures and death. In contrast, no apparent clinical neurological disease is seen after IP infection with Fr54, a polytropic MuLV differing from Fr98 in its envelope gene sequences. In the brain both Fr98 and Fr54 infect primarily capillary endothelial cells and microglia. However, the level of microglial infection by Fr98 is twofold higher than by Fr54, which might account for the difference in neurovirulence. In the present study, in order to test directly whether an increase in the number of microglia infected by Fr54 would be sufficient to induce clinical disease, we attempted to increase the level of Fr54 in the brain by changing the route of infection. After intraventricular inoculation with Fr54-infected neural stem cells (clone C17.2), a well-established vehicle for delivery of viruses and genes to the brain, mice became ataxic and died 4 weeks postinfection. In these mice induction of brain disease was correlated with a higher level of viral antigen in the cerebrum and an increase in the number of infected microglial cells in all brain regions examined compared with mice inoculated IP. In contrast, mice inoculated with neural stem cells infected with an ecotropic nonneurovirulent murine leukemia virus, FB29, developed no clinical disease in spite of evidence for widespread infection of microglia in brain. Since the main differences between Fr54 and FB29 are in the SU (gp70) region of the envelope gene, this region is most likely to account for the differences in induction of CNS disease seen in the current experiments. (+info)
Association of sex of the fetus in isolated fetal choroid plexus cysts.
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We sought to determine if an association exists between sex of the fetus and the finding of isolated fetal choroid plexus cysts. Of 131 fetuses, 62 were male (47.3%) and 69 were female (52.7%). No statistically significant differences were found in the maternal demographic parameters studied (age, race, gravidity, parity, sonogram timing) or descriptive cyst information obtained (location, number, dimensions, resolution), although bilaterality was more common in male fetuses. The determination that isolated choroid plexus cysts are seen equally frequently in male and female fetuses adds to basic information about such a common sonographic finding. (+info)
Contribution of single-photon emission computed tomography in the diagnosis and follow-up of CNS toxicity of a cytarabine-containing regimen in pediatric leukemia.
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PURPOSE: Cytarabine (ara-C) is one of the most effective chemotherapeutic agents in patients with acute leukemia (AL), with a clear dose effect. Use of high-dose ara-C is hampered, however, by a noticeable toxicity, particularly to the CNS. We investigated the usefulness of CNS perfusion imaging with technetium-99m ((99m)Tc)-hexamethyl-propylene-amine oxime (HMPAO) single-photon emission computed tomography (SPECT) concurrent to magnetic resonance imaging (MRI) to specifically assess the effects of standard- and high-dose ara-C in children with AL. PATIENTS AND METHODS: Twenty-six perfusion studies using (99m)Tc-HMPAO SPECT were performed in 12 children (age range, 4 to 15 years) with AL after induction therapy, which consisted of a standard-dose ara-C, immediately after consolidation with high-dose ara-C, and later during follow-up (range, 6 to 44 months). The chemotherapy-related adverse events were monitored and correlated to SPECT and MRI. RESULTS: After the induction phase, all children were neurologically normal on MRI. On SPECT imaging, four children displayed a slightly heterogeneous perfusion. After high-dose ara-C (4 to 36 g/m(2)), five children had regressive neurologic signs of potential toxic origin. Of these five children, only one had an abnormal MRI scan, whereas all patients showed evidence of diffuse cerebral and/or cerebellar heterogeneous perfusion on SPECT. The seven other patients without any neurologic symptoms had normal MRI scans; SPECT was normal for three patients and abnormal for four patients. On follow-up, for four children who had presented with clinical neurologic toxicity, SPECT improved in three patients and remained unchanged in one patients. In two of these four children, delayed abnormalities (T2 white matter hypersignal and cerebellar atrophy) appeared on MRI scans. CONCLUSION: In our series, diffuse heterogeneous brain hypoperfusion is often the sole early objective imaging feature identified by SPECT of high-dose ara-C neurotoxicity, where MRI still demonstrates normal pictures. (+info)
Cerebral larva migrans in a raccoon (Procyon lotor).
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During 1997, gross and histopathologic examinations were performed on an adult female raccoon (Procyon lotor) that was live-trapped in Corvallis, Oregon. Multifocal eosinophilic granulomas indicative of neural and visceral larva migrans were observed. However, within these granulomas, the presence of parasitic larva was seen only in the cerebrum. Morphologic characteristics indicated that the nematode was an ascarid larva. However, it was smaller than the larva of Baylisascaris sp. This appears to be the first documented case of cerebral larva migrans in a raccoon. (+info)
Brain damage after intrathecal methotrexate.
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Ten brains from leukaemic patients given intrathecal methotrexate and 10 from leukaemic patients without intrathecal therapy have been examined. Three of the methodtrexate treated patients appear to have died from their therapy. The histological changes consisted of destruction of oligodendrocytes, sometimes complete over large areas, and sometimes relatively slight. All the patients who survived long enough after treatment showed severe astrocytosis. (+info)
Upregulation of the genes encoding lysosomal hydrolases, a perforin-like protein, and peroxidases in the brains of mice affected with an experimental prion disease.
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In an attempt to identify the molecules involved in the pathogenesis of prion diseases, we performed cDNA subtraction on the brain tissues of mice affected with an experimental prion disease and the unaffected control. The genes identified as being upregulated in the prion-affected brain tissue included those encoding a series of lysosomal hydrolases (lysozyme M and both isoforms of beta-N-acetylhexosaminidase), a perforin-like protein (macrophage proliferation-specific gene-1 [MPS-1]), and an oxygen radical scavenger (peroxiredoxin). Dramatic increases in the expression level occurred at between 12 and 16 weeks after intracerebral inoculation of the prion, coinciding with the onset of spongiform degeneration. The proteinase K-resistant prion protein (PrP(Sc)) became detectable by immunoblotting well before 12 weeks, suggesting a causal relationship between this and the gene activation. Immunohistochemistry paired with in situ hybridization on sections of the affected brain tissue revealed that expression of the peroxiredoxin gene was detectable only in astrocytes and was noted throughout the affected brain tissue. On the other hand, the genes for the lysosomal hydrolases and MPS-1 were overexpressed exclusively by microglia, which colocalized with the spongiform morphological changes. A crucial role for microglia in the spongiform degeneration by their production of neurotoxic substances, and possibly via the aberrant activation of the lysosomal system, would have to be considered. (+info)
Calcifying pseudotumor of the neural axis--case report.
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A 22-year-old female presented with a calcifying pseudotumor of the neural axis manifesting as generalized convulsive seizure twice within 1 year. Computed tomography revealed a small, calcified mass lesion located in the right parietal lobe adjacent to the skull. The tumor was composed of an extensively calcified mass with accompanying peripheral epithelioid cells and focal mature bone structure, consistent with the diagnosis of a calcifying pseudotumor of the neural axis. Following complete excision of the tumor, the patient has been free from seizures for 8 years. (+info)