Indian J Radiol Imaging ; Materials and Methods. Table 1: Distribution of the various histopathological diagnoses among the 34 patients Click here to view. Figure 3 A-C : A 7-year-old female with pilocytic astrocytoma. A Axial T1 W image showing well-defined hypointense cystic lesion with solid components B Axial T2W image showing hyperintense lesion with heterogenous solid components and mild perilesional edema C Axial T1W post-contrast image showing heterogeneous enhancement of the lesion Click here to view.
Figure 4 A-C : A 5-year-old boy with classical medulloblastoma. A Sagittal T2W image showing mixed solid—cystic midline lesion white arrows , with the solid component isointense on T2 B Axial T1W image showing T1-isointense solid component and T1-hypointense cystic areas C Axial T1W post-contrast image showing minimal enhancement of the solid component Click here to view.
Imaging of Brain Tumors with Histological Correlations - Google книги
Figure 5 A-C : A 6-year-old boy with anaplastic ependymoma. A Sagittal T2W image showing large heterointense predominantly solid lesion white arrows B Axial T1 W image showing predominantly isointense lesion with patchy areas of hyperintensities, with off-midline location C Coronal T1W post-contrast image showing moderate heterogeneous enhancement of the lesion Click here to view.
Figure 6 A-C : An year-old female with cerebellar ganglioglioma. Figure 7 A-C : A 4-year-old female with atypical teratoid rhabdoid tumor. A Axial T2 W image showing mixed solid—cystic lesion in midline B Axial T1W image showing isointense solid component C Axial T1W post-contrast image showing moderate enhancement of the solid component Click here to view.
Imaging of Brain Tumors with Histological Correlations
Figure 8 A and B : A year-old female with tubercular cerebellitis. A Coronal T2W image showing patchy cerebellar edema with few foci of T2 hypointensities B Axial T1W post-contrast image showing patchy folial pattern of thick enhancement white arrows Click here to view.
Figure 9 A-C : A year-old female with viral cerebellitis. Related articles Apparent diffusion coefficient; children; diffusion tensor imaging; fractional anisotropy; linear index; planar index; posterior fossa tumors; radial diffusivity; spherical index.
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Clinical and radiological features related to the growth potential of meningioma. Neurosurg Rev ; Low-field MR imaging of meningiomas including dynamic contrast enhancement study: Evaluation of surgical and histopathologic characteristics.
- Progress on the diagnosis and evaluation of brain tumors;
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Differentiation of fibroblastic meningiomas from other benign subtypes using diffusion tensor imaging. J Magn Reson Imaging ; Magnetic resonance imaging and pathological correlates of meningiomas. MRI of intracranial meningiomas: Correlations with histology and physical consistency. Neuroradiology ; Prediction of consistency of meningiomas with preoperative magnetic resonance imaging.
Intracranial meningiomas: Correlations between MR imaging and histology. Eur J Radiol ; Use of preoperative magnetic resonance imaging T1 and T2 sequences to determine intraoperative meningioma consistency. Surg Neurol Int ; Predictors of meningioma consistency: A study in consecutive cases. Acta Neurochir Wien ; Diagnostic value of apparent diffusion coefficient for the accurate assessment and differentiation of intracranial meningiomas. Acta Radiol Short Rep ; Diffusion tensor magnetic resonance imaging for predicting the consistency of intracranial meningiomas.
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Note: Springer eBooks Contents: Epidemiology, histologic classification and clinical course of brain tumors -- Imaging modalities in brain tumors -- Molecular abnormalities in gliomas -- Clinical applications of fMRI and DTI in patients with brain tumors -- Low-grade gliomas -- High-grade gliomas -- Pineal tumors -- Embryonal tumors -- Tumors of the cranial nerves -- Meningeal tumors -- Central nervous lymphomas and hemopoietic neoplasms -- Masses of the sellar and junxtasellar region -- Brain metastases -- Scintigraphy in brain tumors.
Summary: This volume provides a deeper understanding of the diagnosis of brain tumors by correlating radiographic imaging features with the underlying pathological abnormalities.
Imaging of Brain Tumors with Histological Correlations, Second Edition
All modern imaging modalities are used to complete a diagnostic overview of brain tumors with emphasis on recent advances in diagnostic neuroradiology. High-quality illustrations depicting common and uncommon imaging characteristics of a wide range of brain tumors are presented and analysed, drawing attention to the ways in which these characteristics reflect different aspects of pathology. Important theoretical considerations are also discussed.
Since the first edition, chapters have been revised and updated and new material has been added, including detailed information on the clinical application of functional MRI and diffusion tensor imaging.