Epilepsy research
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Valproic acid, which is widely used to treat various types of epilepsy, may cause severe hyperammonemia. However, the mechanism responsible for this side effect is not readily apparent. Polymorphisms in the genes encoding carbamoyl-phosphate synthase 1 (CPS1) and N-acetylglutamate synthase (NAGS) were recently reported to be risk factors for the development of hyperammonemia during valproic acid-based therapy. ⋯ We observed a significant difference between the combination of valproic acid with phenytoin and the development of hyperammonemia in both univariate and multivariate analyses. With regard to the CPS1 4217C>A polymorphism, we did not observe a significant association with the development of hyperammonemia. In conclusion, CPS1 4217C>A polymorphism may not be associated with the development of hyperammonemia in Japanese population.
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[(18)F] Fluorodeoxyglucose Positron Emission Tomography (FDG-PET) is a semi-invasive, interictal method of localization of hypometabolic epileptic foci. FDG-PET can be useful in the clinical work-up prior to epilepsy surgery, especially in equivocal cases. We investigated whether we could increase the yield of presurgical FDG-PET in patients with difficult epilepsy requiring chronic subdural electrocorticography (ECoG). ⋯ Pre-surgical re-assessment of PET scans is worthwhile in epilepsy patients who undergo ECoG, especially when results were reported as negative before. Visual re-assessment itself has a higher combined specificity, sensitivity and accuracy than SPM analysis alone. SPM analysis could be used as a guide for visual (re-)assessment, because of its high sensitivity.