Abstract Meningococcal disease frequently presents neurologic sequels via vascular, metabolic, or inflammatory processes. Understanding the underlying pathogenic mechanisms may influence both treatment and outcome. We present a 2-year-old child affected by Neisseria meningitidis sepsis, who on the second day from clinical onset manifested recurrent partial motor seizures and focal neurologic signs. An early magnetic resonance angiography of the circle of Willis produced normal results, whereas magnetic resonance imaging of the brain disclosed cortical signal abnormalities consistent with cytotoxic edema, without involvement of the adjacent white matter. Six-month follow-up magnetic resonance imaging of the brain indicated faint cortical atrophy in the same regions, although the neurologic picture had resolved. The literature contains few data on early magnetic resonance parenchymal changes, and their pathogenic mechanism is controversial. Diffusion-weighted images may contribute to an understanding of the mechanisms of such brain damage. (C) 2009 by Elsevier Inc. All rights reserved.
Early cortical cytotoxic edema in meningococcal meningitis.
TOLDO, IRENE;SARTORI, STEFANO;MANARA R.
2009
Abstract
Abstract Meningococcal disease frequently presents neurologic sequels via vascular, metabolic, or inflammatory processes. Understanding the underlying pathogenic mechanisms may influence both treatment and outcome. We present a 2-year-old child affected by Neisseria meningitidis sepsis, who on the second day from clinical onset manifested recurrent partial motor seizures and focal neurologic signs. An early magnetic resonance angiography of the circle of Willis produced normal results, whereas magnetic resonance imaging of the brain disclosed cortical signal abnormalities consistent with cytotoxic edema, without involvement of the adjacent white matter. Six-month follow-up magnetic resonance imaging of the brain indicated faint cortical atrophy in the same regions, although the neurologic picture had resolved. The literature contains few data on early magnetic resonance parenchymal changes, and their pathogenic mechanism is controversial. Diffusion-weighted images may contribute to an understanding of the mechanisms of such brain damage. (C) 2009 by Elsevier Inc. All rights reserved.Pubblicazioni consigliate
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