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- Cigdem Inan Akman, Frank Provenzano, Dong Wang, Kristin Engelstad, Veronica Hinton, Julia Yu, Ronald Tikofsky, Masonari Ichese, and Darryl C De Vivo.
- Department of Neurology, Division of Pediatric Neurology, Colleen Giblin Research Laboratory, Columbia University College of Physician & Surgeons, United States; Department of Neurology, Comprehensive Epilepsy Center, Columbia University College of Physician & Surgeons, United States. Electronic address: cia11@columbia.edu.
- Epilepsy Res. 2015 Feb 1; 110: 206-15.
Rationale(18)F fluorodeoxyglucose positron emission tomography ((18)F FDG-PET) facilitates examination of glucose metabolism. Previously, we described regional cerebral glucose hypometabolism using (18)F FDG-PET in patients with Glucose transporter 1 Deficiency Syndrome (Glut1 DS). We now expand this observation in Glut1 DS using quantitative image analysis to identify the epileptic network based on the regional distribution of glucose hypometabolism.Methods(18)F FDG-PET scans of 16 Glut1 DS patients and 7 healthy participants were examined using Statistical parametric Mapping (SPM). Summed images were preprocessed for statistical analysis using MATLAB 7.1 and SPM 2 software. Region of interest (ROI) analysis was performed to validate SPM results.ResultsVisual analysis of the (18)F FDG-PET images demonstrated prominent regional glucose hypometabolism in the thalamus, neocortical regions and cerebellum bilaterally. Group comparison using SPM analysis confirmed that the regional distribution of glucose hypo-metabolism was present in thalamus, cerebellum, temporal cortex and central lobule. Two mildly affected patients without epilepsy had hypometabolism in cerebellum, inferior frontal cortex, and temporal lobe, but not thalamus. Glucose hypometabolism did not correlate with age at the time of PET imaging, head circumference, CSF glucose concentration at the time of diagnosis, RBC glucose uptake, or CNS score.ConclusionQuantitative analysis of (18)F FDG-PET imaging in Glut1 DS patients confirmed that hypometabolism was present symmetrically in thalamus, cerebellum, frontal and temporal cortex. The hypometabolism in thalamus correlated with the clinical history of epilepsy.Copyright © 2014. Published by Elsevier B.V.
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