GLOSSARY ENTRY (DERIVED FROM QUESTION BELOW) | ||||||
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19:33 May 16, 2002 |
Spanish to English translations [PRO] Medical | |||||||
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| Selected response from: Elena Sgarbo (X) | ||||||
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Summary of answers provided | ||||
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5 +4 | intraparenchymal bleeding / hemorrhage |
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4 | intraparenchymatic |
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intraparenchymatic Explanation: Oberve areas of ineraprenchymatic bleeding. Joint Meeting Immunology Duesseldorf 2000 - Abstract Q.23 ... DEC-205, and no CD8a and resided at perivascular and intraparenchymatic inflammatory sites. By lacking prominent phagocytic organelles, CD11c + cells from ... www.uni-duesseldorf.de/dgfi2000/abstract/q23.htm - 5k - Cached - Similar pages [PDF] Genomic sequencing of T. gondii chromosome 1b: A progress report File Format: PDF/Adobe Acrobat - View as HTML Page 1. 1 Genomic sequencing of T. gondii chromosome 1b: A progress report Jim Ajioka ... www.toxoplasma-gondii.de/Abstracts.pdf - Similar pages -------------------------------------------------- Note added at 2002-05-16 19:48:13 (GMT) -------------------------------------------------- That should read intraparenchymatic. |
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intraparenchymal bleeding / hemorrhage Explanation: "Bleeding" is more often associated with blodd that is extraparenchymal; intraparenchymal blood is called more often "hemorrhage".... Suerte Elena Sandberg DI. Lamberti-Pasculli M. Drake JM. Humphreys RP. Rutka JT. Spontaneous **intraparenchymal hemorrhage** in full-term neonates. Neurosurgery. 48(5):1042-8; discussion 1048-9, 2001 May. Iso H. Stampfer MJ. Manson JE. Rexrode K. Hu F. Hennekens CH. Colditz GA. Speizer FE. Willett WC. Prospective study of fat and protein intake and risk of **intraparenchymal hemorrhage** in women. [see comments.]. Circulation. 103(6):856-63, 2001 Hemorrhagic transformation is frequently seen on CT scans obtained in the subacute phase of ischemic stroke. Its prognostic value is controversial. METHODS: We analyzed 554 patients with acute ischemic stroke enrolled in the Multicenter Acute Stroke Trial-Italy (MAST-I) study in whom a second CT scan was performed on day 5. Presence of 1) **intraparenchymal** hemorrhages (hematoma or hemorrhagic infarction), 2) extraparenchymal bleeding (intraventricular or subarachnoid) and 3) cerebral edema (shift of midline structure, sulcal effacement or ventricular compression) alone or in association were evaluated. Death or disability at 6 months were considered as "unfavorable outcome." RESULTS: Patients who developed intraparenchymal hemorrhages, extraparenchymal bleeding, or cerebral edema had unfavorable outcome (83%, 100%, and 80%, respectively), but multivariate analysis demonstrated that only extraparenchymal bleeding (collinearity) and cerebral edema (OR=6.8; 95% CI, 4.5 to 10.4) were significant independent prognostic findings. Unfavorable outcome correlated with size of **intraparenchymal hemorrhage** (chi2 for trend=30.5, P<0.0001). Nevertheless, when a large hematoma was present the negative effect was mostly due to concomitant **extraparenchymal bleeding** (chi2=51.6, P<0.0001), and when hemorrhagic infarction was detected the negative effect was mostly explained by the association with cerebral edema (chi2=36.6, P<0.0001). CONCLUSIONS: Extraparenchymal bleeding and cerebral edema are the main prognostic CT scan findings in the subacute phase of ischemic stroke. Stroke patients with a high risk for developing these 2 types of brain damage should be identified. Measures to prevent and adequately treat their development should be implemented. |
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