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Paediatric brain-stem gliomas: MRI, FDG-PET and histological grading correlation.

Kwon JW, Kim IO, Cheon JE, Kim WS, Moon SG, Kim TJ, Chi JG, Wang KC, Chung JK, Yeon KM

Department of Radiology, Seoul National University Hospital, 28, Yongon-Dong, Chongno-Gu, 110-744, Seoul, South Korea, kimio@radcom.snu.ac.kr.

BACKGROUND: MRI and FDG-PET may predict the histological grading of paediatric brain-stem gliomas. OBJECTIVE: To assess MRI findings and metabolic imaging using FDG-PET of brain-stem gliomas based on histological grading. MATERIALS AND METHODS: Included in the study were 20 paediatric patients (age 3-14 years, mean 8.2 years) with brain-stem glioma (five glioblastomas, ten anaplastic astrocytomas and five low-grade astrocytomas). MR images were assessed for the anatomical site of tumour origin, focality, pattern of tumour growth, and enhancement. RESULTS: All glioblastomas were located in the pons and showed diffuse pontine enlargement with focally exophytic features. Eight anaplastic astrocytomas were located in the pons and demonstrated diffuse pontine enlargement without exophytic features. Low-grade astrocytomas were located in the pons, midbrain or medulla and showed focally exophytic growth features and peripheral enhancement. In 12 patients in whom FDG-PET was undertaken, glioblastomas showed hypermetabolic or hypometabolic lesions, anaplastic astrocytomas showed no metabolic change or hypometabolic lesions and low-grade astrocytomas showed hypometabolism compared with the cerebellum. CONCLUSION: MRI findings correlated well with histological grading of brain-stem gliomas and MRI may therefore predict the histological grading. FDG-PET may be helpful in differentiating between anaplastic astrocytoma and glioblastomas among high-grade tumours.

Published 9 August 2006 in Pediatr Radiol, 36(9): 959-64.
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