Antiepileptic drug pharmacokinetics and neuropharmacokinetics in individual rats by repetitive withdrawal of blood and cerebrospinal fluid: milacemide

1 The kinetics and metabolism of milacemide have been studied in an animal model which allows the simultaneous investigation of the temporal inter‐relationships of drugs and metabolites in blood (pharmacokinetics) and cerebrospinal fluid (CSF, neuropharmacokinetics) in individual freely moving rats. 2 Milacemide dose‐dependently increased CSF glycine and glycinamide (intermediary metabolite) concentrations. This confirms that milacemide is a CNS glycine prodrug. 3 Pretreatment with l ‐deprenyl (2 mg kg −1 ), a specific inhibitor of monoamine oxidase type B (MAO‐B), almost completely prevented the formation of glycinamide and increased milacemide accumulation in CSF. T max and t 1/2 were significantly increased and C max and AUC values were decreased for glycinamide compared to controls. Pretreatment with clorgyline (5 mg kg −1 ), a specific inhibitor of MAO‐type A, only moderately decreased glycinamide C max and AUC values. 4 After milacemide administration (100, 200 and 400 mg kg −1 , i.p.) serum and CSF milacemide concentrations rose linearly and dose‐dependently. Serum glycinamide concentrations exhibited small dose‐dependent rises but these were not linearly related. In contrast, CSF glycinamide concentrations rose linearly and dose‐dependently with C max values 2.5, 3.2 and 4.1 times greater than the corresponding values for serum glycinamide after giving 100, 200 and 400 mg kg −1 respectively of milacemide. 5 Serum glycine concentrations were unaffected but CSF concentrations increased dose‐dependently and these were significant at the higher milacemide doses (200 and 400 mg kg −1 ). Animals given 400 mg kg −1 milacemide had glycine values which were still significantly elevated 7 h later. 6 In conclusion, serum milacemide rapidly enters and equilibrates with the CNS compartment where it is metabolised primarily by MAO‐B to glycinamide and finally to glycine. Metabolism in the peripheral compartment is negligible.