An approach for measuring in vivo cerebral redox states using the oxidative conversion of dihydropyridine to pyridinium ion and the metabolic trapping principle
Keywords: توموگرافی کامپیوتری انتشار اتمی فوتون; BBB; blood-brain barrier; DEM; diethylmaleate; DHP; dihydropyridine; GSH; glutathione; HPLC; high-performance liquid chromatography; NMR; nuclear magnetic resonance; PET; positron emission tomography; Py+; pyridinium ion; RF; retention fraction; SPECT;