RATIONALE: There is a need for laboratory measures to guide clinical treatment with antipsychotic drugs. For serum concentration of the classical antipsychotic drug perphenzine an optimal therapeutic interval has been identified between 2 and 6 nmol/l. Positron emission tomography (PET) studies have suggested an optimal interval in central dopamine D2 receptor occupancy of between 65 and 80%. OBJECTIVES: The aim of the present cross-validation study in clinically stable schizophrenic patients was to examine the relationship between the optimal interval in central D2 receptor occupancy and the therapeutic window for serum perphenazine concentration. METHODS: Six patients who had responded to maintenance treatment with perphenazine decanoate were examined with PET and [11C]raclopride during steady-state conditions. Blood sampling was carried out for minimum serum perphenazine concentration and during the PET examination. RESULTS. The serum perphenazine concentration was between 1.8 and 9 nmol/l and the D2 receptor occupancy varied between 66 and 82%. The relationship between central receptor occupancy and serum drug concentration was curvilinear. Mild extrapyramidal symptoms were present in the patient with the highest D2 receptor occupancy. CONCLUSIONS. The previously suggested therapeutic window in serum perphenazine concentration is in good agreement with the optimal interval suggested for central D2 receptor occupancy. Serum concentrations at low dose levels may therefore serve as a useful tool in clinical monitoring of antipsychotic drug treatment.
RATIONALE: There is a need for laboratory measures to guide clinical treatment with antipsychotic drugs. For serum concentration of the classical antipsychotic drug perphenzine an optimal therapeutic interval has been identified between 2 and 6 nmol/l. Positron emission tomography (PET) studies have suggested an optimal interval in central dopamine D2 receptor occupancy of between 65 and 80%. OBJECTIVES: The aim of the present cross-validation study in clinically stable schizophrenicpatients was to examine the relationship between the optimal interval in central D2 receptor occupancy and the therapeutic window for serum perphenazine concentration. METHODS: Six patients who had responded to maintenance treatment with perphenazine decanoate were examined with PET and [11C]raclopride during steady-state conditions. Blood sampling was carried out for minimum serum perphenazine concentration and during the PET examination. RESULTS. The serum perphenazine concentration was between 1.8 and 9 nmol/l and the D2 receptor occupancy varied between 66 and 82%. The relationship between central receptor occupancy and serum drug concentration was curvilinear. Mild extrapyramidal symptoms were present in the patient with the highest D2 receptor occupancy. CONCLUSIONS. The previously suggested therapeutic window in serum perphenazine concentration is in good agreement with the optimal interval suggested for central D2 receptor occupancy. Serum concentrations at low dose levels may therefore serve as a useful tool in clinical monitoring of antipsychotic drug treatment.
Authors: Ana M Catafau; Victor Perez; Pedro Plaza; Juan-Carlos Pascual; Santiago Bullich; Marina Suarez; Maria M Penengo; Iluminada Corripio; Dolors Puigdemont; Monica Danus; Javier Perich; Enric Alvarez Journal: Psychopharmacology (Berl) Date: 2006-10-11 Impact factor: 4.530