DISTRIBUTION OF FLUPHENAZINE AND ITS METABOLITES IN BRAIN-REGIONS AND OTHER TISSUES OF THE RAT

Rats were given 5, 10, or 20 mg/kg oral doses of fluphenazine (FLU;) dihydrochloride daily for 15 days. FLU and its sulfoxide (FL-SO), 7-hydroxy (7-OH-FLU) and N-4'-oxide (FLU-NO) metabolites were assayed in plasma, liver, kidney, fat, whole brain, and brain regions by specific and sensitive radioimmunoassays (RIA). All metabolites were detected in tissues at higher levels than in plasma, and the levels increased with dose. FLU was 10- to 27-foId higher in brain regions than in plasma. Brain vs plasma levels of FLU correlated more closely than levels of its metabolites. Liver contained the highest levels of all analytes at all doses. FLU-SO was the major metabolite in brain regions (24% to 96% of FLU) and accumulated in fat 43 to 75 times more than FLU. Levels of 7-OH-FLU and FLU-NO were very low in brain (1% to 20% of FLU). FLU-SO and FLU-NO had only 1% to 3% the affinity for D-1 and D-2 receptors, but 7-OH-FLU had 20% the D-2 and 5% the D-1 affinity of FLU. The low affinity for dopamine receptors and low brain-levels of metabolites of FLU indicate that they ave not likely to contribute importantly to pharmacologic responses of FLU. Also, the estimated relative ''activity factor'' for these compounds in the brain indicated that the contribution to neuropharmacologic activity by metabolites is less than 1% of FLU. Consequently, clinical monitoring of plasma FLU alone may be sufficient.