Ritonavir has minimal impact on the pharmacokinetic disposition of a single dose of bupropion administered to human volunteers

A drug-drug interaction study was conducted to determine whether ritonavir (200 mg; 4 doses over 2 days) alters the pharmacokinetic disposition of bupropion (75 mg; once) coadministered to 7 healthy volunteers in a placebo-controlled 2-way crossover study. Serum samples collected from 0 to 24 hours after bupropion administration were assayed for concentrations of bupropion and metabolites (hydroxybupropion, threohydrobupropion, and erythrohydrobupropion). Derived pharmacokinetic parameters were compared between placebo/bupropion and ritonavir/bupropion trials by paired t test. The effect of ritonavir on most pharmacokinetic parameters was minimal (<20% mean change). The only parameters that showed a statistically significant effect were threohydrobupropion area under the blood concentration curve (14% +/- 5% decrease, mean +/- SE; P = .04) and erythrohydrobupropion time-to-maximal serum concentration (161% +/- 92% increase, P = .03), suggesting that ritonavir may inhibit the carbonyl reductase enzyme responsible for formation of these metabolites. These findings indicate that short-term ritonavir dosing has only minimal impact on the pharmacokinetic disposition of a single dose of bupropion in healthy volunteers.     

Single-dose pharmacokinetics of bupropion in adolescents: effects of smoking status and gender.

Sustained-release (SR) bupropion (Zyban) is approved as a smoking cessation aid for adults. Since smoking often begins in adolescence, we determined the single-dose pharmacokinetics of bupropion SR in 75 adolescent subjects ranging from 13 to 18 years old. Subjects self-reported their smoking status. Urinary cotinine concentration was used to verify smoking status. Thirty-seven subjects (18 males, 19 females) were classified as cigarette smokers and 38 were nonsmokers (19 males, 19 females). Fasted subjects received one tablet (150 mg) of bupropion SR, and plasma samples were collected before (0) and 1/2, 1, 2, 3, 4, 6, 8, 24, 48, and 72 hours after dosing. Plasma samples were analyzed for bupropion and its three major metabolites (hydroxybupropion and the aminoalcohol isomers, erythrohydrobupropion plus threohydrobupropion, expressed as a composite) by solid-phase extraction, followed by LC/MS/MS. Factorial analysis of variance (ANOVA) was used to evaluate the effects of smoking and gender on pharmacokinetic parameters. Smokers and nonsmokers differed significantly (p < 0.05) in age and urinary cotinine (p < 0.01) concentration but did not differ significantly in mean weight, height, body surface area, or body mass index. The pharmacokinetic (PK) parameters for bupropion and hydroxybupropion did not differ between smokers and nonsmokers, but differences were found between male and female subjects. Mean values for area under the plasma concentration versus time curve (AUC0-->infinity), volume of distribution (Vd beta) normalized to body weight, maximum plasma concentration (Cmax), and elimination half-life (t1/2 beta) for bupropion were significantly (p < 0.05) greater in females than males, while clearance of bupropion normalized to body weight (CL/f) did not differ between males and females. Females also exhibited significantly (p < 0.05) larger values for hydroxybupropion mean AUC0-->infinity and Cmax than males. The mean ratio of hydroxybupropion to bupropion AUC for adolescents was approximately 4 to 5, which is lower than that previously reported for adults. In conclusion, smoking status does not affect the single-dose pharmacokinetics of bupropion SR in adolescents. However, females differ from males in several potentially important PK parameters for bupropion and its major metabolite, hydroxybupropion.     

Chirality and neuropsychiatric drugs: an update on stereoselective disposition and clinical pharmacokinetics of bupropion

1.?Bupropion, an antidepressant drug has been approved as a racemate containing equal amounts of R- and S-enantiomers. Recently, the chirality of bupropion has received significant attention in the delineation of stereoselective pharmacokinetic (PK) and disposition data. Although the non-stereoselective metabolism of bupropion was well established, the emerging data suggest that bupropion exhibits complex stereoselective metabolism, leading to the formation of various stereoisomeric metabolites. Along with the chiral PKs of bupropion, hydroxybupropion, threohydrobupropion and erythrohydrobupropion, the metabolism data also provided insights into the roles of both CYP2B6 and CYP2C19 enzymes in the stereoselective disposition. Furthermore, the metabolism studies also suggested specific involvement of CYP2B6 pathway in the stereoselective hydroxylation of bupropion to R,R-hydroxybupropion, which was considered as a better marker for CYP2B6 activity.

2.?Other significant learnings were: (1) understanding the in vivo CYP2D6 inhibitory potential of bupropion with respect to the chirality of parent drug and the metabolites; (2) the potential involvement of bupropion and metabolites towards significant down regulation of CYP2D6 mRNA; (3) significant in vivo CYP2D6 inhibitory activity (86%) exhibited by R,R-hydroxybupropion and threohydrobupropion.

3.?The newly published data on chiral PKs and disposition of bupropion and its metabolites can be used to gauge the drug–drug interaction potential when bupropion is combined in clinical therapy. Moreover, such data would be useful to understand the consequences (if any), due to the combination of bupropion with other drugs both from a safety and efficacy perspective because of the prevalence of polypharmacy situations in many therapeutic areas including CNS indications.     

Pharmacokinetic and pharmacodynamic of bupropion: integrative overview of relevant clinical and forensic aspects

Abstract

Bupropion is an atypical antidepressant of the aminoketone group, structurally related to cathinone, associated with a wide interindividual variability. An extensive pharmacokinetic and pharmacodynamic review of bupropion was performed, also focusing on chemical, pharmacological, toxicological, clinical and forensic aspects of this drug without a limiting period. Bupropion is a chiral, basic, highly lipophilic drug, clinically used as racemate that undergoes extensive stereoselective metabolism. Its major active metabolites, hydroxybupropion, threohydrobupropion, and erythrohydrobupropion reach higher plasma concentrations than bupropion. Bupropion exerts its effects mainly by inhibiting dopamine and norepinephrine reuptake and by blocking several nicotinic receptors. Recent reports highlight recreational use of bupropion via intranasal insufflation and intravenous use. Seizures, insomnia, agitation, headache, dry mouth, and nausea are some of the reported adverse effects. Neurologic effects are major signs of intoxication that should be carefully managed. Finally, the characterization of the polymorphic enzymes involved in the metabolism of bupropion is essential to understand factors that may influence the interindividual and intraindividual variability in bupropion metabolite exposure, including the evaluation of potential drug–drug interactions and pharmacogenetic implications.     

Bupropion metabolism by human placenta

Smoking during pregnancy is the largest modifiable risk factor for pregnancy-related morbidity and mortality. The success of bupropion for smoking cessation warrants its investigation for the treatment of pregnant patients. Nevertheless, the use of bupropion for the treatment of pregnant smokers requires additional data on its bio-disposition during pregnancy. Therefore, the aim of this investigation was to determine the metabolism of bupropion in placentas obtained from nonsmoking and smoking women, identify metabolites formed and the enzymes catalyzing their formation, as well as the kinetics of the reaction. Data obtained revealed that human placentas metabolized bupropion to hydroxybupropion, erythro- and threohydrobupropion. The rates for formation of erythro- and threohydrobupropion exceeded that for hydroxybupropion by several folds, were dependent on the concentration of bupropion and exhibited saturation kinetics with an apparent K_m value of 40 μM. Human placental 11β-hydroxysteroid dehydrogenases were identified as the major carbonyl-reducing enzymes responsible for the reduction of bupropion to threo- and erythrohydrobupropion in microsomal fractions. On the other hand, CYP2B6 was responsible for the formation of OH-bupropion. These data suggest that both placental microsomal carbonyl-reducing and oxidizing enzymes are involved in the metabolism of bupropion.     

Identification of non‐reported bupropion metabolites in human plasma

Bupropion and its three active metabolites exhibit clinical efficacy in the treatment of major depression, seasonal depression and smoking cessation. The pharmacokinetics of bupropion in humans is highly variable. It is not known if there are any non‐reported metabolites formed in humans in addition to the three known active metabolites. This paper reports newly identified and non‐reported metabolites of bupropion in human plasma samples. Human subjects were dosed with a single oral dose of 75 mg of an immediate release bupropion HCl tablet. Plasma samples were collected and analysed by LC–MS/MS at 0, 6 and 24 h. Two non‐reported metabolites (M1 and M3) were identified with mass‐to‐charge (m/z) ratios of 276 (M1, hydration of bupropion) and 258 (M3, hydroxylation of threo/erythrohydrobupropion) from human plasma in addition to the known hydroxybupropion, threo/erythrohydrobupropion and the glucuronidation products of the major metabolites (M2 and M4–M7). These new metabolites may provide new insight and broaden the understanding of bupropion's variability in clinical pharmacokinetics. © 2016 The Authors Biopharmaceutics & Drug Disposition Published by John Wiley & Sons Ltd.     

Carbonyl reduction of bupropion in human liver

Bupropion is metabolized extensively in humans by oxidative and reductive processes. CYP2B6 mediates oxidation of bupropion to hydroxybupropion, but the enzyme(s) catalyzing carbonyl reduction of bupropion to erythro- and threohydrobupropion in human liver is unknown. The objective of this study was to examine the enzyme kinetics of bupropion reduction in human liver. In human liver cytosol, the reduction of bupropion to erythro-and threohydrobupropion was NADPH dependent with Cl(int) values of 0.08 and 0.60 μL·min(-1)mg(-1) protein, respectively. Bupropion reduction in liver microsomes was also NADPH dependent with Cl(int) values of 10.4 and 280 μL·min(-1)mg(-1) protein, respectively. Formation of erythro-and threohydrobupropion in microsomes exceeded that in cytosol by 70 and 170 fold, respectively. Menadione, an inhibitor of cytosolic carbonyl reducing enzymes (e.g. CBRs), inhibited erythro-and threohydrobupropion formation in cytosol with IC(50) of 30 and 54 μM, respectively. In microsomes 18β-glycyrrhetinic acid, an inhibitor of microsomal carbonyl reductases (e.g. 11β-HSDs), inhibited their formation with IC(50) of 25 and 26?nM, respectively. Our findings, in agreement with recent human placental studies, show that carbonyl reducing enzymes in hepatic microsomes are significant players in bupropion reduction. Contrary to past studies, we found that threohydrobupropion (not hydroxybupropion) is the major microsomal generated hepatic metabolite of bupropion.     

Drug interaction study between bupropion and ticlopidine in male CF-1 mice

Bupropion is an atypical antidepressant that is biotransformed in humans to its major active metabolite hydroxybupropion by cytochrome P450 2B6 (CYP2B6). Co-administration of bupropion with an inhibitor of CYP2B6 can result in a serious drug interaction, leading to bupropion related adverse effects (e.g. seizures). The antiplatelet agent ticlopidine has been identified as a potent in vitro inhibitor of bupropion hydroxylation, however it is unknown if it interacts in vivo in rodents. In this study we investigated the potential pharmacokinetic (PK) drug interaction between bupropion and ticlopidine in mice. Using a destructive sampling design, male CF-1 mice were administered ticlopidine 1.0 mg/kg daily for 5 d, followed by single-dose bupropion 50 mg/kg. Bupropion and hydroxybupropion levels were measured by HPLC-UV in plasma and brain tissues at 30, 60, 90, 120 and 180 min post-dose, and compared between treatment groups. There was a strong trend in both plasma and brain data towards greater bupropion levels and smaller hydroxybupropion levels in ticlopidine treated mice. Analysis of variance indicated statistical differences (p<0.05) at many time points. The variance associated with the area under the curve was calculated using Bailer's method and significant differences were found between treatment groups. Taken together, the concentration time point statistical analysis followed by PK modeling demonstrate a significant PK drug interaction between bupropion and ticlopidine. To our knowledge, this is the first study to document an in vivo drug interaction between these drugs in mice. Our findings support future in vivo drug interaction studies in mice between bupropion and CYP2B6 inhibitors.     

Lack of effect of cimetidine on the pharmacokinetics of sustained-release bupropion

The objective of this study was to assess whether cimetidine affects the pharmacokinetics of sustained-release (SR) bupropion hydrochloride and the active metabolite, hydroxybupropion. This randomized, open-label, two-period crossover study was conducted in 24 healthy volunteers 18 to 45 years of age. ANOVA showed that administration of two 150 mg bupropion SR tablets with one 800 mg cimetidine tablet following an overnight fast did not change values for AUC infinity, Cmax, tmax, t1/2, and CL/F (CL/F calculated for bupropion only) for either bupropion or hydroxybupropion as compared with two 150 mg bupropion SR tablets alone. In this study, it appears that there is no effect of cimetidine on the pharmacokinetics of bupropion SR.     

Determination of bupropion and its main metabolite in rat plasma by LC-MS and its application to pharmacokinetics

A sensitive and selective liquid chromatograpy-mass spectrometry method for the determination of bupropion and its main metabolite, hydroxubupropion, in rat plasma was developed and validated. After addition of carbamazepine as internal standard (IS) and precipitation of protein with acetonitrile, the plasma samples were analyzed on an Agilent Zorbax SB-C18 (2.1 mm x 50 mm, 3.5 microm) column at 30 degrees C, with acetonitrile-0.1% formic acid as mobile phase at a flow rate of 0.4 mL min(-1). The detection was carried out in the selective ion monitoring mode with a positive electrospray ionization interface. The calibration curve was linear over the 10-2000 ng mL(-1) for bupropion and 5-1000 ng mL(-1) for hydroxybupropion in plasma. RSD of inter-day and intra-day precision was less than 7% for bupropion, 9% for hydroxybupropion. The developed method was successfully applied to pharmacokinetic studies after single intragastric administration of bupropion 15 mg kg(-1) to rats.     

Eight-week, placebo-controlled, double-blind comparison of the antidepressant efficacy and tolerability of bupropion XR and venlafaxine XR

The efficacy, safety and tolerability of bupropion XR and venlafaxine XR was assessed and compared with placebo in adult outpatients with major depressive disorder (MDD). Adults meeting DSM-IV criteria for MDD with a minimum Hamilton Depression Rating Scale (HAMD) 17-Item total score of > or =18 were randomized to eight weeks of double-blind treatment with either bupropion XR (150 mg/day), venlafaxine XR (75 mg/day) or placebo. At the end of the fourth week of treatment, a dosage increase to bupropion XR 300 mg/day or venlafaxine XR 150 mg/day was allowed if, in the opinion of the investigator, response was inadequate. The primary efficacy endpoint was mean change from baseline at week 8 in the Montgomery-Asberg Depression Rating Scale (MADRS) total score last observation carried forward (LOCF). Mean changes from baseline at week 8 (LOCF) in MADRS total score were statistically significant for bupropion XR and venlafaxine XR patients compared to the placebo group: -16.0 for bupropion XR (P = 0.006 vs placebo), -17.1 for venlafaxine XR (P < 0.001 vs placebo) and -13.5 for placebo. Secondary outcomes (including CGI-S, HAM-A, MEI, Q-LES-Q-SF, responder and remitter analyses) also improved significantly for both active treatment groups compared with placebo. The most frequently reported adverse events were dry mouth and insomnia for bupropion XR, and nausea, hyperhidrosis, fatigue, and insomnia for venlafaxine XR. In this double-blind, placebo-controlled trial, bupropion XR at doses up to 300 mg/day and venlafaxine XR at doses up to 150 mg/day demonstrated comparable antidepressant efficacy.     

Amisulpride doses and plasma levels in different age groups of patients with schizophrenia or schizoaffective disorder

Because of a unique pharmacodynamic profile, amisulpride seems appropriate for treatment of elderly patients with schizophrenia. In a large-scale naturalistic therapeutic drug monitoring study, daily amisulpride dose, trough and dose-corrected amisulpride plasma levels, co-medication, clinical effectiveness (CGI) and side effects (UKU) were compared between age groups in 395 patients with schizophrenia or schizoaffective disorder (46% women; mean age 39.1 +/- 14.2 years, range 18-83 years) under amisulpride therapy. Mean amisulpride doses (574 +/- 269 mg/day), plasma levels (304 +/- 274 ng/mL), dose-corrected amisulpride plasma levels (C/D ratios, 0.52 +/- 0.41 ng/mL:mg), clinical response (at least moderate improvement, 71.6%), and side effects (any side effect, 32.2%; extrapyramidal symptoms, 14.9%) were comparable between age groups (P > 0.25). At higher age, significantly more benzodiazepines (P = 0.04), non-benzodiazepine hypnotics (P = 0.004) and non-psychotropic medications (P < 0.0001) were prescribed. The naturalistic study showed higher C/D ratios in women (P = 0.019) and a slight increase of C/D ratios with age (P = 0.026), but no substantial age-dependent effects on amisulpride doses or plasma levels. In patients above 60 years, clinical response was associated with lower amisulpride plasma levels (P = 0.016) at comparable doses. Neither the age-dependent decrease of amisulpride clearance nor the significantly higher prevalence of co-morbidity and co-medication seem to be the reasons for definite clinical concerns against amisulpride treatment of elderly if contraindications are seriously taken.     

Milnacipran plasma levels and antidepressant response in Japanese major depressive patients

The relationship between antidepressant effects and plasma levels of milnacipran was studied in 49 cases of major depression without psychotic features during 6 weeks of milnacipran treatment. The daily dose of milnacipran was 50 mg/day for the first week, and up to 100 mg/day thereafter. Depressive symptoms were evaluated by the Montgomery and Asberg depression rating scale (MADRS) before treatment and at 1, 2, 4 and 6 weeks after the beginning of this study. Thirty-four patients (69.4%) were responders (defined as a 50% or greater decrease in the baseline MADRS score). Significant differences of MADRS scores were seen from 1 week after the beginning of this study (p=0.004, unpaired t-test) between responders and nonresponders. The mean plasma milnacipran level of responders, 82.0 +/- 29.4 ng/ml, was similar to that of non-responders, 78.6+/-23.1 ng/ml; there was no significant difference between responders and nonresponders. Neither a significant linear nor a curvilinear relationship was obtained between the final MADRS score and the plasma levels of milnacipran. Although there was no significant relationship between the plasma levels of milnacipran and the antidepressant response, milnacipran should be considered an efficacious agent in the treatment of major depressive patients.     

A fatal case of bupropion (Zyban) overdose

A sensitive and reproducible method for the identification and the quantitative determination of bupropion (BUP) and its major metabolites, hydroxybupropion (OH-BUP) and threohydrobupropion (T-BUP), was developed in blood and urine. The three compounds were extracted with a solid-phase extraction procedure followed by LC-ESI-MS-MS separation and quantification using decadeuterated lidocaine as internal standard. BUP and its metabolites were satisfactorily identified by multiple reactions monitoring detection. The limits of detection and quantification were determined at 5 and 10 microg/L, respectively, for each analyte. The intraday and interday coefficients of variability were lower than 11.9% for BUP and its metabolites. This method was applied to the forensic case of a 35-year-old male who died after a suspected ingestion of 30 slow-release tablets of Zyban. As samplings were performed at least 72 h after the drug intake, BUP had disappeared from blood, but OH-BUP and T-BUP were present at the concentrations of 5.8 and 30.4 mg/L, respectively. In urine, concentrations ranged from 42.9 mg/L for BUP to 617 mg/L for T-BUP. These results agree with the hypothesis of a successful suicide attempt.     

Effect of adjunctive lamotrigine treatment on the plasma concentrations of clozapine, risperidone and olanzapine in patients with schizophrenia or bipolar disorder

The effect of lamotrigine on the steady-state plasma concentrations of the atypical antipsychotics clozapine, olanzapine, and risperidone was investigated in patients with schizophrenia or bipolar disorder stabilized on chronic treatment with clozapine (200-500 mg/day; n = 11), risperidone (3-6 mg/day; n = 10) or olanzapine (10-20 mg/day; n = 14)). Lamotrigine was titrated up to a final dosage of 200 mg/day over 8 weeks, and pharmacokinetic assessments were made at baseline and during treatment weeks 6 and 10, at lamotrigine dosages of 100 and 200 mg/day respectively. The plasma concentrations of clozapine, norclozapine, risperidone, and 9-hydroxy-risperidone did not change significantly during treatment with lamotrigine. The mean plasma concentrations of olanzapine were 31 +/- 7 ng/mL at baseline, 32 +/- 7 ng/mL at week 6, and 36 +/- 9 ng/mL at week 10, the difference between week 10 and baseline being statistically significant (P < 0.05). Adjunctive lamotrigine therapy was well tolerated in all groups. These findings indicate that lamotrigine, at the dosages recommended for use as a mood stabilizer, does not affect the plasma levels of clozapine, risperidone, and their active metabolites. The modest elevation in plasma olanzapine concentration, possibly due to inhibition of UGT1A4-mediated olanzapine glucuronidation, is unlikely to be of clinical significance.     

Nonresponse to clozapine and ultrarapid CYP1A2 activity: clinical data and analysis of CYP1A2 gene

Clozapine (CLO), an atypical antipsychotic, depends mainly on cytochrome P450 1A2 (CYP1A2) for its metabolic clearance. Four patients treated with CLO, who were smokers, were nonresponders and had low plasma levels while receiving usual doses. Their plasma levels to dose ratios of CLO (median; range, 0.34; 0.22 to 0.40 ng x day/mL x mg) were significantly lower than ratios calculated from another study with 29 patients (0.75; 0.22 to 2.83 ng x day/mL x mg; P < 0.01). These patients were confirmed as being CYP1A2 ultrarapid metabolizers by the caffeine phenotyping test (median systemic caffeine plasma clearance; range, 3.85; 3.33 to 4.17 mL/min/kg) when compared with previous studies (0.3 to 3.33 mL/min/kg). The sequencing of the entire CYP1A2 gene from genomic DNA of these patients suggests that the -164C > A mutation (CYP1A2*1F) in intron 1, which confers a high inducibility of CYP1A2 in smokers, is the most likely explanation for their ultrarapid CYP1A2 activity. A marked (2 patients) or a moderate (2 patients) improvement of the clinical state of the patients occurred after the increase of CLO blood levels above the therapeutic threshold by the increase of CLO doses to very high values (ie, up to 1400 mg/d) or by the introduction of fluvoxamine, a potent CYP1A2 inhibitor, at low dosage (50 to 100 mg/d). Due to the high frequency of smokers among patients with schizophrenia and to the high frequency of the -164C > A polymorphism, CYP1A2 genotyping could have important clinical implications for the treatment of patients with CLO.     

Safety of intravenous methamphetamine administration during treatment with bupropion

Rationale Methamphetamine dependence is a growing problem for which no medication treatments have proven effective. Objectives We evaluated bupropion, an antidepressant with beneficial effects for the treatment of nicotine dependence, in patients with methamphetamine dependence, to assess the safety and tolerability of methamphetamine administration during bupropion treatment. Methods Twenty-six participants entered the study and 20 completed the protocol. Participants received intravenous methamphetamine (0, 15, and 30 mg) before and after randomization to twice-daily bupropion (150 mg SR) or matched placebo. Dependent measures included cardiovascular effects of methamphetamine, methamphetamine and amphetamine pharmacokinetics, and peak and trough plasma concentrations of bupropion and its metabolites. Results Bupropion treatment was well tolerated, with bupropion- and placebo-treated groups reporting similar rates of adverse events. Methamphetamine administration was associated with expected stimulant cardiovascular effects, and these were not accentuated by bupropion treatment. Instead, there was a trend for bupropion to reduce methamphetamine-associated increases in blood pressure and a statistically significant reduction in methamphetamine-associated increases in heart rate. Pharmacokinetic analysis revealed that bupropion treatment reduced the plasma clearance of methamphetamine and also reduced the appearance of amphetamine in the plasma. Methamphetamine administration did not alter the peak and trough plasma concentrations of bupropion or its metabolites. Conclusions Methamphetamine administration was well tolerated during bupropion treatment. There was no evidence of additive cardiovascular effects when the drugs were coadministered. This study provides initial evidence for the safety of prescribing bupropion for the treatment of methamphetamine abuse and dependence. The impact of bupropion treatment in patients who abuse larger doses of methamphetamine remains undetermined.     

Bupropion and 4-OH-bupropion pharmacokinetics in relation to genetic polymorphisms in CYP2B6

Bupropion is applied in depression and smoking cessation. Genetic polymorphisms in cytochrome P450 2B6 (CYP2B6) may cause variability in bupropion pharmacokinetics since hydroxylation is known to be mediated by CYP2B6. Bupropion may be a probe drug for CYP2B6 activity in humans. Bupropion pharmacokinetics were studied after a single oral dose of 150 mg in 121 healthy male volunteers. The amino acid polymorphisms R22C, Q172H, S259R, K262R and R487C were analysed by polymerase chain reaction and restriction fragment length polymorphism and plasma concentrations were measured by high-performance liquid chromatography. Pharmacokinetic analysis was performed by non-parametric methods and by population pharmacokinetic modelling. A unimodal distribution of bupropion and hydroxybupropion kinetic parameters was detected with a mean (range) area under the curve (AUC) of 3.64 (0.89-8.14) micromol.h/l for bupropion and 25.5 (6.72-75.3) micromol.h/l for hydroxybupropion. Population kinetic analysis revealed that bupropion total clearance via CYP2B6 alleles *1, *2, *5 and *6 did not differ, but clearance via allele *4 was 1.66-fold higher compared to wild-type allele *1 (P=0.001). Corresponding to the high clearance of bupropion, carriers of the CYP2B6 genotype *1/*4 had significantly higher Cmax of hydroxybupropion compared to all other genotypes (P=0.03). Only a minor fraction of the variability in bupropion and hydroxybupropion kinetics could be explained by the known CYP2B6 amino acid variants, in particular by the CYP2B6*4 allele. The role of this allele should also be studied in other CYP2B6 substrates, including cyclophosphamide, halothane, mianserin, promethazine and propofol.     

Routine therapeutic drug monitoring in patients treated with 10-360 mg/day citalopram

From data collected during routine TDM, plasma concentrations of citalopram (CIT) and its metabolites demethylcitalopram (DCIT) and didemethylcitalopram (DDCIT) were measured in 345 plasma samples collected in steady-state conditions. They were from 258 patients treated with usual doses (20-60 mg/d) and from patients medicated with 80-360 mg/d CIT. Most patients had one or several comedications, including other antidepressants, antipsychotics, lithium, anticonvulsants, psychostimulants and somatic medications. Dose-corrected CIT plasma concentrations (C/D ratio) were 2.51 +/- 2.25 ng mL-1 mg-1 (n = 258; mean +/- SD). Patients >65 years had significantly higher dose-corrected CIT plasma concentrations (n = 56; 3.08 +/- 1.35 ng mL-1 mg-1) than younger patients (n = 195; 2.35 +/- 2.46 ng mL-1 mg-1) (P = 0.03). CIT plasma concentrations in the generally recommended dose range were [mean +/- SD, (median)]: 57 +/- 64 (45) ng/mL (10-20 mg/d; n = 64), 117 +/- 95 (91) ng/mL (21-60 mg/d; n = 96). At higher than usual doses, the following concentrations of CIT were measured: 61-120 mg/d CIT, 211 +/- 103 (190) ng/mL (n = 93); 121-200 mg/d: 339 +/- 143 (322) ng/mL (n = 70); 201-280 mg/d: 700 +/- 408 (565) ng/mL (n = 18); 281-360 mg/d: 888 +/- 620 (616) ng/mL (n = 4). When only one sample per patient (at the highest daily dose if repeated dosages) is considered, there is a linear and significant correlation (n = 48, r = 0.730; P < 0.001) between daily dose (10-200 mg/d) and CIT plasma concentrations. In experiments with dogs, DDCIT was reported to affect the QT interval when present at concentrations >300 ng/mL. In this study, DDCIT concentration reached 100 ng/mL in a patient treated with 280 mg/d CIT. Twelve other patients treated with 140-320 mg/d CIT had plasma concentrations of DDCIT within the range 52-73 ng/mL. In a subgroup comprised of patients treated with > or =160 mg/d CIT and with CIT plasma concentrations < or =300 ng/mL, and patients treated with < or =200 mg/d CIT and CIT plasma concentrations > or = 600 ng/mL, the enantiomers of CIT and DCIT were also analyzed. The highest S-CIT concentration measured in this subgroup was 327 ng/mL in a patient treated with 140 mg/d CIT, but the highest S-CIT concentration (632 ng/mL) was measured in patient treated with 360 mg/d CIT. In conclusion, there is a highly linear correlation between CIT plasma concentrations and CIT doses, well above the usual dose range.     

Evaluation of sexual functioning in depressed outpatients: a double-blind comparison of sustained-release bupropion and sertraline treatment

Sexual dysfunction is a frequently reported side effect of many antidepressants, including serotonin reuptake inhibitors. Bupropion, an antidepressant of the aminoketone class, is relatively free of adverse sexual effects. In a randomized, double-blind, multicenter trial, sustained-release bupropion (bupropion SR) and sertraline, a selective serotonin reuptake inhibitor, were found to be similarly efficacious in the treatment of outpatients with moderate to severe depression. This report describes the results of a double-blind comparison of the sexual side effect profiles of bupropion SR and sertraline. Two hundred forty-eight patients who had received a diagnosis of moderate to severe major depression were randomly assigned to receive treatment with bupropion SR (100-300 mg/day) or sertraline (50-200 mg/day) for 16 weeks. Eligible patients were required to be in a stable relationship and to have normal sexual functioning. Sexual functioning was assessed by the investigator at each clinic visit using investigator-rated structured interviews. A significantly greater percentage of sertraline-treated patients (63% and 41% of men and women, respectively) developed sexual dysfunction compared with bupropion SR-treated patients (15% and 7%, respectively). Sexual dysfunction was noted as early as day 7 in sertraline-treated patients at a dose of 50 mg/day and persisted until the end of the 16-week treatment phase. Four patients, all of whom were treated with sertraline, discontinued from the study prematurely because of sexual dysfunction. Given the similar efficacy of the two drugs in treating depression, bupropion SR may be a more appropriate antidepressant choice than sertraline in patients for whom sexual dysfunction is a concern.