4 results on '"Maeder, Philippe"'
Search Results
2. Automated MRI-based volumetry of basal ganglia and thalamus at the chronic phase of cortical stroke.
- Author
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Baudat, Cindy, Maréchal, Bénédicte, Corredor-Jerez, Ricardo, Kober, Tobias, Meuli, Reto, Hagmann, Patric, Michel, Patrik, Maeder, Philippe, and Dunet, Vincent
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BASAL ganglia , *CARDIOVASCULAR diseases risk factors , *CHRONIC diseases , *DIGITAL image processing , *MAGNETIC resonance imaging , *STATISTICS , *STROKE , *THALAMUS , *THREE-dimensional imaging , *DATA analysis , *RETROSPECTIVE studies , *STROKE patients - Abstract
Purpose: We aimed at assessing the potential of automated MR morphometry to assess individual basal ganglia and thalamus volumetric changes at the chronic phase after cortical stroke. Methods: Ninety-six patients (mean age: 65 ± 18 years, male 55) with cortical stroke at the chronic phase were retrospectively included. Patients were scanned at 1.5 T or 3 T using a T1-MPRAGE sequence. Resulting 3D images were processed with the MorphoBox prototype software to automatically segment basal ganglia and thalamus structures, and to obtain Z scores considering the confounding effects of age and sex. Stroke volume was estimated by manual delineation on T2-SE imaging. Z scores were compared between ipsi- and contralateral stroke side and according to the vascular territory. Potential relationship between Z scores and stroke volume was assessed using the Spearman correlation coefficient. Results: Basal ganglia and thalamus volume Z scores were lower ipsilaterally to MCA territory stroke (p values < 0.034) while they were not different between ipsi- and contralateral stroke sides in non-MCA territory stroke (p values > 0.37). In MCA territory stroke, ipsilateral caudate nucleus (rho = − 0.34, p = 0.007), putamen (rho = − 0.50, p < 0.001), pallidum (rho = − 0.44, p < 0.001), and thalamus (rho = − 0.48, p < 0.001) volume Z scores negatively correlated with the cortical stroke volume. This relation was not influenced by cardiovascular risk factors or time since stroke. Conclusion: Automated MR morphometry demonstrated atrophy of ipsilateral basal ganglia and thalamus at the chronic phase after cortical stroke in the MCA territory. The atrophy was related to stroke volume. These results confirm the potential role for automated MRI morphometry to assess remote changes after stroke. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
3. MRI-based assessment of the pineal gland in a large population of children aged 0-5 years and comparison with pineoblastoma: part II, the cystic gland.
- Author
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Sirin, Selma, Jong, Marcus, Galluzzi, Paolo, Maeder, Philippe, Brisse, Hervé, Castelijns, Jonas, Graaf, Pim, and Goericke, Sophia
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BRAIN , *RADIOGRAPHY , *PINEAL gland tumors , *ANTHROPOMETRY , *COMPARATIVE studies , *MAGNETIC resonance imaging , *MEDICAL cooperation , *PINEAL gland , *REGRESSION analysis , *RESEARCH , *RETINOBLASTOMA , *RETROSPECTIVE studies , *DESCRIPTIVE statistics , *CHILDREN , *DIAGNOSIS , *ANATOMY - Abstract
Introduction: Pineal cysts are a common incidental finding on brain MRI with resulting difficulties in differentiation between normal glands and pineal pathologies. The aim of this study was to assess the size and morphology of the cystic pineal gland in children (0-5 years) and compare the findings with published pineoblastoma cases. Methods: In this retrospective multicenter study, 257 MR examinations (232 children, 0-5 years) were evaluated regarding pineal gland size (width, height, planimetric area, maximal cyst(s) size) and morphology. We performed linear regression analysis with 99 % prediction intervals of gland size versus age for the size parameters. Results were compared with a recent meta-analysis of pineoblastoma by de Jong et al. Results: Follow-up was available in 25 children showing stable cystic findings in 48 %, cyst size increase in 36 %, and decrease in 16 %. Linear regression analysis gave 99 % upper prediction bounds of 10.8 mm, 10.9 mm, 7.7 mm and 66.9 mm, respectively, for cyst size, width, height, and area. The slopes (size increase per month) of each parameter were 0.030, 0.046, 0.021, and 0.25, respectively. Most of the pineoblastomas showed a size larger than the 99 % upper prediction margin, but with considerable overlap between the groups. Conclusion: We presented age-adapted normal values for size and morphology of the cystic pineal gland in children aged 0 to 5 years. Analysis of size is helpful in discriminating normal glands from cystic pineal pathologies such as pineoblastoma. We also presented guidelines for the approach of a solid or cystic pineal gland in hereditary retinoblastoma patients. [ABSTRACT FROM AUTHOR]
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- 2016
- Full Text
- View/download PDF
4. MRI-based assessment of the pineal gland in a large population of children aged 0-5 years and comparison with pineoblastoma: part I, the solid gland.
- Author
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Galluzzi, Paolo, Jong, Marcus, Sirin, Selma, Maeder, Philippe, Piu, Pietro, Cerase, Alfonso, Monti, Lucia, Brisse, Hervé, Castelijns, Jonas, Graaf, Pim, and Goericke, Sophia
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BRAIN , *RADIOGRAPHY , *PINEAL gland tumors , *AGE distribution , *ANTHROPOMETRY , *COMPARATIVE studies , *CONFIDENCE intervals , *MAGNETIC resonance imaging , *PINEAL gland , *REGRESSION analysis , *RETINOBLASTOMA , *SEX distribution , *RETROSPECTIVE studies , *DESCRIPTIVE statistics , *CHILDREN , *DIAGNOSIS , *ANATOMY - Abstract
Introduction: Differentiation between normal solid (non-cystic) pineal glands and pineal pathologies on brain MRI is difficult. The aim of this study was to assess the size of the solid pineal gland in children (0-5 years) and compare the findings with published pineoblastoma cases. Methods: We retrospectively analyzed the size (width, height, planimetric area) of solid pineal glands in 184 non-retinoblastoma patients (73 female, 111 male) aged 0-5 years on MRI. The effect of age and gender on gland size was evaluated. Linear regression analysis was performed to analyze the relation between size and age. Ninety-nine percent prediction intervals around the mean were added to construct a normal size range per age, with the upper bound of the predictive interval as the parameter of interest as a cutoff for normalcy. Results: There was no significant interaction of gender and age for all the three pineal gland parameters (width, height, and area). Linear regression analysis gave 99 % upper prediction bounds of 7.9, 4.8, and 25.4 mm, respectively, for width, height, and area. The slopes (size increase per month) of each parameter were 0.046, 0.023, and 0.202, respectively. Ninety-three percent (95 % CI 66-100 %) of asymptomatic solid pineoblastomas were larger in size than the 99 % upper bound. Conclusion: This study establishes norms for solid pineal gland size in non-retinoblastoma children aged 0-5 years. Knowledge of the size of the normal pineal gland is helpful for detection of pineal gland abnormalities, particularly pineoblastoma. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
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