Angèle Viola scite author profile

The first in vivo magnetic resonance study of experimental cerebral malaria is presented. Cerebral involvement is a lethal complication of malaria. To explore the brain of susceptible mice infected with Plasmodium berghei ANKA, multimodal magnetic resonance techniques were applied (imaging, diffusion, perfusion, angiography, spectroscopy). They reveal vascular damage including blood-brain barrier disruption and hemorrhages attributable to inflammatory processes. We provide the first in vivo demonstration for blood-brain barrier breakdown in cerebral malaria. Major edema formation as well as reduced brain perfusion was detected and is accompanied by an ischemic metabolic profile with reduction of high-energy phosphates and elevated brain lactate. In addition, angiography supplies compelling evidence for major hemodynamics dysfunction. Actually, edema further worsens ischemia by compressing cerebral arteries, which subsequently leads to a collapse of the blood flow that ultimately represents the cause of death. These findings demonstrate the coexistence of inflammatory and ischemic lesions and prove the preponderant role of edema in the fatal outcome of experimental cerebral malaria. They improve our understanding of the pathogenesis of cerebral malaria and may provide the necessary noninvasive surrogate markers for quantitative monitoring of treatment.

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Multiparametric differentiation of posterior fossa tumors in children using diffusion‐weighted imaging and short echo‐time ¹H‐MR spectroscopy

Schneider

Confort‐Gouny

Viola

et al. 2007

Magnetic Resonance Imaging

101

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Purpose:To assess the combined value of diffusionweighted imaging (DWI) and proton magnetic resonance spectroscopy ( 1 H-MRS) in differentiating medulloblastoma, ependymoma, pilocytic astrocytoma, and infiltrating glioma in a pediatric population. Materials and Methods:A total of 17 children with untreated posterior fossa tumors (seven medulloblastoma, four infiltrating glioma, two ependymoma, and four pilocytic astrocytoma), were investigated with conventional MRI, DWI, and MRS using a single-voxel technique. Within the nonnecrotic tumor core, apparent diffusion coefficient (ADC) values using a standardized region of interest (ROI) were retrieved. Quantification of water signal and analysis of metabolite signals from MRS measurements in the same tumorous area were reviewed using multivariant linear discriminant analysis.Results: Combination of ADC values and metabolites, which were normalized using water as an internal standard, allowed discrimination between the four tumor groups with a likelihood below 1 ϫ 10 -9 . Positive predictive value was 1 in all cases. Tumors could not be discriminated when using metabolite ratios or ADC values alone, nor could they be differentiated using creatine (Cr) as an internal reference even in combination with ADC values. Conclusion:Linear discriminant analysis using DWI and MRS using water as internal reference, fully discriminates the four most frequent posterior fossa tumors in children.

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Brain magnetic resonance study of Mecp2 deletion effects on anatomy and metabolism

Saywell

Viola

Confort‐Gouny

et al. 2006

Biochemical and Biophysical Research Communications

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Angèle Viola

Imaging Experimental Cerebral MalariaIn Vivo: Significant Role of Ischemic Brain Edema

Multiparametric differentiation of posterior fossa tumors in children using diffusion‐weighted imaging and short echo‐time ¹H‐MR spectroscopy

Brain magnetic resonance study of Mecp2 deletion effects on anatomy and metabolism

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Angèle Viola

Imaging Experimental Cerebral MalariaIn Vivo: Significant Role of Ischemic Brain Edema

Multiparametric differentiation of posterior fossa tumors in children using diffusion‐weighted imaging and short echo‐time 1H‐MR spectroscopy

Brain magnetic resonance study of Mecp2 deletion effects on anatomy and metabolism

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Product

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Multiparametric differentiation of posterior fossa tumors in children using diffusion‐weighted imaging and short echo‐time ¹H‐MR spectroscopy