Morikazu Shibasaki

Haloperidol metabolism in psychiatric patients : importance of glucuronidation and carbonyl reduction

In 39 patients who received haloperidol regularly we measured plasma concentrations of haloperidol glucuronide (HAL-GL), reduced haloperidol glucuronide (RHAL-GL), haloperidol (HAL), reduced haloperidol (RHAL), and HAL reductase activity in red blood cells. Plasma HAL-GL concentrations were significantly higher than HAL, RHAL, or RHAL-GL concentrations. Concentration ratios of total glucuronide to nonglucuronide and RHAL/HAL ratios were calculated as indices of glucuronidation and reduction capacity in each patient. The plasma glucuronidation ratios showed a significant negative correlation (r = -0.63, p less than 0.001) with the dose, while the reduction ratios showed a positive correlation (r = 0.75, p less than 0.001). No correlations were found between the HAL reductase activity in red blood cells and either the dose or RHAL/HAL. Based on these findings we suggest that glucuronidation of HAL is the major metabolic pathway of HAL in humans and its activity is important in determining steady-state plasma HAL concentrations. Glucuronidation may also be a major contributing factor in the interindividual variability of HAL metabolism.

Lower plasma levels of haloperidol in smoking than in nonsmoking schizophrenic patients.

The impact of smoking on plasma haloperidol (HAL) concentrations was investigated in 66 Japanese male schizophrenic inpatients treated orally with HAL. The subjects consisted of 22 nonsmokers and 44 smokers each smoking ten cigarettes per day. Plasma concentrations of HAL were determined by an enzyme immunoassay method. There were significant positive correlations between the plasma HAL concentration and the daily dose of HAL per kg body weight (Y = 58.1X-0.01 (r = 0.86)). Smokers had significantly lower HAL concentrations per daily dose of HAL/kg body weight than nonsmokers (smokers vs. nonsmokers = 54.3+/-16.6 vs. 70.6+/-23.2 ng/mL/mg/kg). In doses less than 0.2 mg/kg of HAL, smokers showed significantly lower HAL concentrations per daily dose of HAL/kg body weight than nonsmokers (smokers vs. nonsmokers = 55.1+/-14.4 vs. 79.5+/-27.1 ng/mL/mg/kg), whereas no significant difference in HAL concentrations per daily dose of HAL/kg body weight was observed between smokers and nonsmokers when treated with more than 0.2 mg/kg (smokers vs. nonsmokers = 52.9+/-20.7 vs. 60.0+/-11.1 ng/mL/mg/kg). Our results indicate that smoking may induce the enzyme(s) metabolizing HAL, which results in lower plasma HAL concentrations in smokers than in nonsmokers, particularly at low doses of HAL.

Reduced haloperidol/haloperidol ratios in plasma: Polymorphism in Japanese psychiatric patients

We measured plasma concentrations of haloperidol (HAL) and its metabolite, reduced haloperidol (RHAL), by high performance liquid chromatography (HPLC) in 45 Japanese psychiatric patients receiving HAL. Plasma levels of HAL had a highly positive correlation with daily dose per body weight. Plasma RHAL/HAL ratios had also a dose-dependent relationship, but their distribution was nonnormal and a bimodal pattern with an antimode at 0.7 was apparent by probit analysis. There were 8 subjects (18%) with high RHAL/HAL ratios (mean = 1.26, SD = 0.41) and 37 subjects (82%) with low RHAL/HAL ratios (mean = 0.42, SD = 0.13). RHAL/HAL ratios showed little intraindividual variability (+/- 10.6%), while interindividual variability was large. This may suggest that pharmacogenetic factors are involved in the metabolism of HAL and RHAL.

Regional cerebral blood flow in catatonic schizophrenia

Single photon emission computed tomography (SPECT) with 123I-iodoamphetamine (IMP) as tracer was used to study regional cerebral blood flow (rCBF) distribution in six patients with the catatonic subtype of schizophrenia (DSM-III-R). IMP-SPECT imaging revealed a significant reduction of rCBF in the parietal lobes of both hemispheres. Three-dimensional reconstruction of the SPECT images identified the superior region of the frontoparietal lobe as the most severely affected region. The pattern of rCBF deficits observed in catatonic schizophrenia differs markedly from that seen in 13 patients with other subtypes of schizophrenia and 7 normal control subjects. These observations indicate that parietal lobe dysfunction may be an important component in the pathology of the catatonic subtype of schizophrenia.

Metabolism of clomipramine in a japanese psychiatric population: hydroxylation, desmethylation, and glucuronidation

We measured the concentrations of clomipramine and its metabolites, N-desmethylclomipramine, 8-hydroxy-N-desmethylclomipramine, 8-hydroxyclomipramine by high-performance liquid chromatography in 108 Japanese psychiatric patients receiving clomipramine hydrochloride PO. The concentrations of the glucuronide conjugates of 8-hydroxyclomipramine and 8-hydroxy-N-desmethyl-clomipramine were assayed via enzymatic hydrolysis. Although there were large interindividual variations of concentrations of parent, intermediate metabolic compounds, and glucuronide conjugates, significant positive correlations were observed between these drug concentrations and daily doses of clomipramine hydrochloride (mg/kg body weight). Although the metabolic ratios for desmethylation, hydroxylation, and glucuronidation that were calculated from steady-state drug concentrations varied substantially with 36-, 14-, and 28-fold interindividual variations, respectively, apparent poor desmethylators, poor hydroxylators, or poor glucuronidators were not found.

Interindividual variations of desmethylation and hydroxylation of amitriptyline in a Japanese psychiatric population.

We measured the concentrations in plasma of amitriptyline and its metabolites, nortriptyline and geometric isomers of 10-hydroxynortriptyline and 10-hydroxyamitriptyline, in 73 Japanese psychiatric patients receiving amitriptyline hydrochloride (Tryptanol; Banyu Pharmaceutical Co. Ltd., Tokyo, Japan) by high-performance liquid chromatography. Although there were large interindividual variations of total drug concentrations and concentrations of parent or intermediate metabolic compounds in plasma, significant positive correlations were observed between these drug concentrations and daily doses of amitriptyline hydrochloride (milligrams per kilogram of body weight). The metabolic ratios for both hydroxylation and desmethylation varied substantially with approximately 8- to 19-fold interindividual variations. Frequency distribution histograms and probit analyses of these parameters identified neither definite poor hydroxylators nor poor desmethylators of amitriptyline.

Significance of monitoring plasma levels of amitriptyline, and its hydroxylated and desmethylated metabolites in prediction of the clinical outcome of depressive state

Abstract The clinical significance of monitoring the plasma levels of amitriptyline and its metabolites in prediction of the clinical outcome of depressive episode was investigated in 49 inpatients. Discriminant analysis of drug concentrations (at two weeks after initiation of drug treatment) and clinical outcome revealed that increasing the plasma levels of amitriptyline, cis‐isomers of hydroxylated metabolites (Z‐10‐hydroxyamitriptyline and Z‐10‐hydroxynortriptyline) predicted a better clinical outcome, while increasing of plasma levels of nortriptyline and trans‐isomers of hydroxylated metabolites (E‐10‐hydroxyamitriptyline and E‐10‐hydroxynortriptyline) were shown to predict a poor clinical outcome in the depressive episode of the subjects, and that clinical outcome of approximately 73% of the subjects could be correctly predicted.

Interindividual variation in bromperidol metabolism and relationship to therapeutic effects.

Plasma concentrations of bromperidol (BRP) and reduced bromperidol (RBRP) were determined in 31 patients with schizophrenia who were administered BRP for their psychiatric symptoms. Activities of carbonyl reductase in red blood cells were assayed using BRP as a substrate. Plasma concentrations of BRP and RBRP ranged from 2.2 to 23.5 ng/mL and from 0.2 to 8.2 ng/mL, respectively. RBRP-to-BRP ratios in plasma ranged from 0.01 to 0.94 (mean +/- SD: 0.31 +/- 0.20), values notably lower than the previously reported values of reduced haloperidol to haloperidol (HAL) in the plasma from patients on HAL. The activity of BRP reductase in red blood cells was determined as 6.8-12.3 pmol/hr/10(6) red blood cells, which was at approximately the same level as that of HAL reductase. Patients with positive responses to BRP treatment were evaluated using the Brief Psychiatric Rating Scale. We found that the number of patients who had a positive response to BRP did not increase after BRP plasma levels had reached the level of 12 ng/mL. This finding suggests that a therapeutic plateau in BRP pharmacotherapy of schizophrenia occurs, and there is no advantage to raising the dose once this plateau is reached.

Plasma concentrations of timiperone and its reduced metabolite in the patients on timiperone

Plasma levels of timiperone (TIM) and reduced timiperone (RTIM) were determined in 10 schizophrenic patients who were treated with TIM. Activities of ketone reductase in red blood cells (RBC) were assayed using TIM and haloperidol (HAL) as substrates. Plasma levels of TIM and RTIM ranged from 3.2 ng/mL to 9.5 ng/mL and from 1.7 ng/mL to 7.6 ng/mL, respectively, and ∼four‐fold inter‐individual variations in RTIM/TIM (0.37–1.43, 0.67 ± 0.25) were observed. There were significant and positive correlations between plasma levels of TIM or RTIM with the daily doses of TIM (mg/kg body weight); TIM (ng/mL) = 19.5 × daily dose of TIM (mg/kg) + 1.3, r = 0.79, n = 18, P < 0.01; RTIM (ng/mL) = 13.1 × daily dose of TIM (mg/kg) + 0.7, r = 0.73, n = 18, P < 0.001). Given 0.3 mg/kg of TIM, a plasma level of TIM as 7.15 ng/mL was predicted, which is ∼60% that of HAL. The activity of TIM reductase in RBC was determined as ∼70% of HAL reductase in RBC, although the correlation between the activities of TIM reductase and HAL reductase in RBC was high (r = 0.98, n = 10, P < 0.001).