Modeling and simulations to confirm a controlled hypoglycemic stress test in healthy subjects is not associated with clinically significant QT prolongations.

OBJECTIVES: A modified insulin tolerance test (ITT) can be used to simulate a physiological stress state through the induction of controlled hypoglycemia in healthy volunteers. This allows for evaluation of hypothalamic-pituitary-adrenocortical axis response to stress via a surge in cortical release. However, a consequence of severe, prolonged hypoglycemia is QT interval prolongation. The aim of this analysis was to confirm that blood glucose lowering to 60 mg/dL (previously identified as adequate for inducing stress) has low risk of inducing clinically significant QT prolongation. MATERIALS AND METHODS: Continuous ECG monitoring was conducted as a planned sub study of an open-label, 2-period study involving 18 healthy male subjects. The QTcF response to hypoglycemia was measured over 2 identical periods, ~ 7 days apart. RESULTS: An indirect- response model adequately described the pharmacological relationship between blood glucose and QTcF intervals over the time-course of the ITT. The model correctly identified the steep glucose-QT relationship as an on-off response with a large Hill coefficient of 59 and the threshold glucose, EC50, as ~ 57 mg/dL with narrow between-subject variability of 10%. Simulated QTcF profiles over the course of an ITT did not demonstrate any QTcF interval changes of clinical concern, defined as QTcF observation > 500 ms, if hypoglycemia did not reach below 60 mg/dL. The statistical prediction that the chance of a mean QTcF observation > 500 ms was < 0.0001. CONCLUSIONS: Results support that an ITT maintained at or above 60 mg/dL is unlikely to cause QT prolongation in healthy volunteers and does not warrant continuous ECG monitoring in this group of subjects.

The effects on metabolic clearance when administering a potent CYP3A autoinducer with the prototypic CYP3A inhibitor, ketoconazole.

Ketoconazole is recognized as the prototypical CYP3A inhibitor and is often used to determine the metabolic CYP3A liabilities of new chemical entities in preclinical and clinical studies. Ketoconazole has been commercially available for approximately 30 years and was marketed before drug-metabolizing enzymes were well characterized; consequently, little is known about its metabolic profile. Semagacestat, a γ-secretase inhibitor investigated as a potential therapy for Alzheimer's disease, was determined to be a potent CYP3A autoinducer in human hepatocytes. Two human studies were conducted to assess the induction potential of semagacestat. In the first study (study 1, n = 20), semagacestat increased the mean apparent clearance (CL/F) of oral midazolam (76-324 l/h) and nifedipine (63-229 l/h) as predicted from hepatocytes. In a second (steady-state) study (study 2, n = 20), semagacestat CL/F increased from 22 after a single dose to 31 l/h. Ketoconazole decreased semagacestat CL/F by 32% after a single dose of semagacestat [geometric means ratio estimate, 0.68; 90% confidence interval (CI). 0.64, 0.73] and 46% at steady state (geometric means ratio estimate. 0.54; 90% CI, 0.51, 0.58). Ketoconazole area under the concentration-time curve over 8 h decreased 49% from first to last day of semagacestat dosing. Semagacestat significantly increases the oral clearance of CYP3A substrates, confirming its inducer designation. More importantly, when administered with a potent CYP3A inducer at steady state, ketoconazole's plasma exposure decreased, indicating that it may also be cleared by CYP3A, other inducible enzymes or transporters, or both.

Bioassays for estrogenic activity: development and validation of estrogen receptor (ERalpha/ERbeta) and breast cancer proliferation bioassays to measure serum estrogenic activity in clinical studies.

Standard estrogenic prodrugs such as estradiol valerate (E2V) and increasingly popular phytoestrogen formulations are commonly prescribed to improve menopausal health. These drugs are metabolized to numerous bioactive compounds, known or unknown, which may exert combinatorial estrogenic effects in vivo. The aim of this study is to develop and validate estrogen receptor (ER) alpha/ERbeta reporter gene and MCF-7 breast cancer cell proliferation bioassays to quantify serum estrogenic activities in a clinical trial setting. We measured changes in serum estrogenicity following ingestion of E2V and compared this to mass spectrometric measurements of its bioactive metabolites, estrone and 17beta-stradiol. ERalpha bioactivity of the 192 serum samples correlated well (R = 79%) with 17beta-estradiol levels, and adding estrone improved R to 0.83 (likelihood ratio test, P < 0.0001), suggesting that the ERalpha assay reflects summated activity of compounds in serum. ERbeta correlated moderately (R = 0.52) with estrone and 17beta-estradiol, with an estrone/17beta-estradiol coefficient ratio that was twice that of ERalpha, indicating estrone was more active on a molar basis in the ERbeta assay. Unlike the ERalpha and ERbeta bioassays, MCF-7 cell proliferation was driven by 17beta-estradiol, and addition of estrone did not increase the predictive value of the model, suggesting that the driver or drivers for breast cancer cell proliferation were not the same as for ERalpha and ERbeta transactivation. In contrast, a decoction of the traditional Chinese medicinal herb Epimedium pubescens did not induce significant changes in estrogenic bioactivity over baseline. These data indicate that ERalpha/ERbeta reporter gene and MCF-7 breast cancer cell proliferation bioassays reflect different aspects of estrogenic activity and that these assays suggest that the Epimedium formulation tested is unlikely to exert significant estrogenic effects in humans.

Lack of effect of acute oral ingestion of vitamin C on oxidative stress, arterial stiffness or blood pressure in healthy subjects.

Vitamin C is a potent antioxidant in vitro and has been reported to act as a vasodilator, possibly by increasing nitric oxide bioavailability. This study examined the antioxidant and vascular effects of a single large oral dose of vitamin C in 26 healthy human volunteers. Haemodynamic and oxidative DNA and lipid damage markers were measured for 8 h following an oral dose of 2 g vitamin C or placebo. Vitamin C had no effect on vasodilation (measured by augmentation index (mean change=0.04%, 90% CI=- 2.20% to 2.28%) or forearm blood flow (-0.19%/min (-0.68, 0.30)), in comparison to placebo) or on several markers of oxidative stress including DNA base oxidation products in blood cells, 8-hydroxy-2'-deoxyguanosine (8O HdG) in urine (0.068 (-0.009, 0.144)) or urinary or plasma total F(2)-isoprostanes (-0.005 ng/ml (-0.021, 0.010), -0.153 ng/mg (-0.319, 0.014), respectively).

Possible differential induction of phase 2 enzyme and antioxidant pathways by american ginseng, Panax quinquefolius.

Human immunodeficiency virus (HIV)-infected patients often take herbal medicines, which may interact with antiretrovirals. American ginseng induces phase 2 and antioxidant enzymes in vitro and might increase the clearance of zidovudine and/or enhance antioxidant activity. Ten healthy volunteers received 300 mg of zidovudine orally before and after 2 weeks of treatment with a ginsenoside-enriched American ginseng extract 200 mg twice daily. This ginseng extract induced the phase 2 enzyme quinone reductase with an average concentration of doubling of enzyme activity of 190 microg/mL. Total ginsenoside content was 8.5 +/- 0.5%. Pharmacokinetic profiles of zidovudine and oxidative stress marker concentrations were measured post-zidovudine dose. American ginseng does not significantly affect the formation clearance of zidovudine to its glucuronide (ratio post- to pre-American ginseng = 1.17; 90% confidence interval: 0.95-1.45; P = .21), total clearance (ratio = 0.97; 0.82-1.14; P = .70), or plasma zidovudine AUC0-8 (ratio = 1.03; 0.87-1.21; P = .77). Oxidative stress biomarkers are reduced post-American ginseng (F2-isoprostane ratio = 0.79; 0.72-0.86; P < .001; 8-hydroxy-deoxyguanosine ratio = 0.74; 0.59-0.92; P = .02). Two weeks of American ginseng does not alter zidovudine pharmacokinetics but reduces oxidative stress markers.

Effects of smoking cessation, acute re-exposure and nicotine replacement in smokers on AIR inhaled insulin pharmacokinetics and glucodynamics.

WHAT IS ALREADY KNOWN ABOUT THIS SUBJECT: * Only one other study (Becker et al.) has reported on the influence of smoking cessation and smoking resumption on inhaled insulin pharmacokinetics and glucodynamics, concluding that the rapid changes associated with smoking resumption carry the risk for hypoglycaemia and thus should not be used by active smokers. WHAT THIS STUDY ADDS: * This is the first euglycaemic clamp study on the impact of smoking cessation, acute smoking re-exposure and nicotine replacement on AIR((R)) inhaled insulin pharmacokinetics and glucodynamics. * We demonstrate clinically and statistically significant shifts in glucodynamic response to acute re-exposure to a single cigarette, leading us to conclude that active smokers should be advised against inhaled insulin therapy until smoking abstinence is stable. * Additionally, these results are also the first to demonstrate an apparent independent effect of nicotine replacement therapy on insulin exposure and glucodynamic response. AIMS: To explore the effects of smoking cessation and acute smoking re-exposure on the pharmacokinetic (PK) and glucodynamic (GD) profiles of AIR inhaled insulin (AIR Insulin) with or without nicotine replacement therapy (NRT). METHODS: Nondiabetic smokers (n = 24) with normal pulmonary function completed a two-phase (four-period), open-label, randomized euglycaemic clamp study. During the initial study phase, subjects underwent glucose clamps following AIR Insulin dosing, shortly after smoking, 8-12 h after smoking, or following subcutaneous insulin lispro shortly after smoking. AIR Insulin PK and GD were again assessed during and after a 4-week smoking-cessation period with or without NRT. In the last study period, subjects smoked one cigarette shortly before final AIR Insulin dosing and glucose clamp, to study the effect of acute smoking re-exposure on inhaled insulin PK and GD. RESULTS: Compared with the preceding active smoking phase, the administration of AIR Insulin in nondiabetic subjects undergoing a 4-week period of smoking abstinence resulted in a decrease in PK and GD of approximately 25% (P = 0.008 for both), an effect which was greater in subjects using NRT. Following rechallenge with a single cigarette (without NRT), GD response to AIR Insulin increased significantly (P = 0.006) towards precessation levels, relative to smoking abstinence. In subjects using NRT, however, the increase in GD was less pronounced. CONCLUSION: Smoking, smoking cessation and acute re-exposure with a single cigarette are associated with clinically significant alterations in AIR Insulin pharmacokinetics and glucodynamics. AIR Insulin should not be used by smokers or those at risk for recidivism.

Atomoxetine pharmacokinetics in healthy Chinese subjects and effect of the CYP2D6*10 allele.

AIMS: To characterize atomoxetine pharmacokinetics, explore the effect of the homozygous CYP2D6*10 genotype on atomoxetine pharmacokinetics and evaluate the tolerability of atomoxetine, in healthy Chinese subjects. METHODS: Twenty-four subjects, all CYP2D6 extensive metabolizers (EM), were randomized to receive atomoxetine (40 mg qd for 3 days, then 80 mg qd for 7 days) or matching placebo (2 : 1 ratio) in a double-blind fashion. Atomoxetine serum concentrations were measured following single (40 mg) and multiple (80 mg) doses. Adverse events, clinical safety laboratory data and vital signs were assessed during the study. RESULTS: Atomoxetine was rapidly absorbed with median time to maximum serum concentrations of approximately 1.5 h after single and multiple doses. Atomoxetine concentrations appeared to decrease monoexponentially with a mean apparent terminal half-life (t(1/2)) of approximately 4 h. The apparent clearance, apparent volume of distribution and t(1/2) following single and multiple doses were similar, suggesting linear pharmacokinetics with respect to time. Homozygous CYP2D6*10 subjects had 50% lower clearances compared with other EM subjects, resulting in twofold higher mean exposures. No clinically significant changes or abnormalities were noted in laboratory data and vital signs. CONCLUSIONS: The pharmacokinetics of atomoxetine in healthy Chinese subjects appears comparable to other ethnic populations. Multiple dosing of 80 mg qd atomoxetine was well tolerated in this study.

Effect of exenatide on the pharmacokinetics and pharmacodynamics of warfarin in healthy Asian men.

Exenatide, a treatment for type 2 diabetes, slows gastric emptying as part of its pharmacologic action and may alter the absorption of concomitant oral drugs. This open-label, 2-period, fixed-sequence study evaluated the influence of exenatide coadministration on the pharmacokinetics and pharmacodynamics of warfarin, a narrow therapeutic index drug, in healthy men (N = 16). A single, 25-mg oral dose of warfarin, with a standardized breakfast, was administered alone in period 1 and concomitantly with 10 microg exenatide subcutaneous twice daily in period 2. Exenatide did not produce significant changes in R- or S-warfarin pharmacokinetics. Although there were minor reductions in warfarin anticoagulant effect, the ratios of geometric means for the area under the international normalized ratio (INR)-time curve from dosing until the time of the last measurable INR value or maximum-observed INR response being 0.94 (0.93-0.96) and 0.88 (0.84-0.92), respectively, the magnitude and direction of these changes do not suggest a safety concern from this interaction.

Pharmacokinetics of ruboxistaurin are significantly altered by rifampicin-mediated CYP3A4 induction.

AIMS: The aim of this study was to evaluate the effect of rifampicin co-administration on the pharmacokinetics of ruboxistaurin and its active metabolite, N-desmethyl ruboxistaurin and, in addition, to compare the changes in pharmacokinetics of ruboxistaurin and N-desmethyl ruboxistaurin with the urinary 6beta-hydroxycortisol : cortisol ratio. Ruboxistaurin is a specific protein-kinase-C beta inhibitor in clinical development for the treatment of diabetic microvascular complications. METHODS: This was a two-period, one-sequence study. Sixteen healthy male subjects completed both study periods. In period one, a single 64 mg oral dose of ruboxistaurin was administered. In period two, 600 mg rifampicin was administered daily for 9 days, during which another single 64 mg ruboxistaurin dose was administered on day 7. Blood samples were collected and assayed for ruboxistaurin and N-desmethyl ruboxistaurin. CYP3A4 induction was assessed by ratios of urinary 6beta-hydroxycortisol : cortisol (6beta-OHC : C) obtained via 24 h and morning-spot sampling techniques. Results Following repeated doses of rifampicin, both the mean C(max) and AUC(0,infinity) of ruboxistaurin were significantly reduced by approximately 95% (P < or = 0.001). For the metabolite, the mean C(max) decreased by 68% (P < or = 0.001), and AUC(0,infinity) decreased by 77% (P < or = 0.001). The t(max) values did not appear affected. The 6beta-OHC : C ratios from both 24 h and morning spot methods increased significantly, consistent with CYP3A4 induction. CONCLUSIONS: The effect of rifampicin co-administration on the exposure of ruboxistaurin is consistent with ruboxistaurin being a substrate of CYP3A4. Therefore, co-administration with known CYP3A4 inducing agents (rifampicin, carbamazepine, phenobarbital, etc.) may decrease the concentrations of ruboxistaurin and N-desmethyl-ruboxistaurin. In this study, 6beta OHC : C ratios substantially underestimated the impact of rifampicin on ruboxistaurin.

L-5-Hydroxytryptophan augments the neuroendocrine response to a SSRI.

The objective of the study was to assess l-5-hydroxytryptophan's (l-5HTP) augmentation effect on the neuroendocrine response to a SSRI (citalopram). A neuroendocrine challenge study was conducted in healthy Asian male subjects. The neuroendocrine response to oral citalopram and l-5HTP was measured primarily as the prolactin and cortisol area under the response curve (or AUC). The study comprised 2 studies: Study 1. A double blind, randomised dose ranging study was conducted with l-5HTP (50-200 mg) to explore the prolactin and/or cortisol dose response and select a dose that provided a threshold neuroendocrine response. Study 2. A randomized comparison of citalopram 20 vs 40 mg was used to assess the effect of these doses on prolactin and cortisol. Based on the results of the dose response assessments with l-5HTP and cortisol, 200 mg l-5HTP was subsequently used in Study 2 to explore the augmentation of the neuroendocrine response to 20 mg citalopram. Citalopram, but not l-5HTP, increased prolactin AUC(0-3h) while 5HTP and citalopram increased cortisol AUC(0-3h). A 200 mg dose of l-5HTP significantly augmented the prolactin and cortisol response AUC(0-3h) to 20mg oral citalopram. The results of the study suggest that an augmented neuroendocrine challenge may be a suitable marker to demonstrate increased 5-HT-mediated responses when exploring novel agents as improved SSRIs.

Effect of exenatide on the steady-state pharmacokinetics of digoxin.

This open-label study investigated the effect of exenatide coadministration on the steady-state plasma pharmacokinetics of digoxin. A total of 21 healthy male subjects received digoxin (day 1, 0.5 mg twice daily; days 2-12, 0.25 mg once daily) and exenatide (days 8-12, 10 microg twice daily). Digoxin plasma and urine concentrations were measured on days 7 and 12. Exenatide coadministration did not change the overall 24-hour steady-state digoxin exposure (AUCtau,ss) and Cmin,ss but caused a 17% decrease in mean plasma digoxin Cmax,ss (1.40 to 1.16 ng/mL) and an increase in digoxin tmax,ss (median increase, 2.5 hours). Although the decrease in digoxin Cmax,ss was statistically significant, peak concentrations were within the therapeutic concentration range in all subjects. Digoxin urinary pharmacokinetic parameters were not altered. Gastrointestinal symptoms, the most common adverse effects of exenatide, decreased over time. Exenatide administration does not cause any changes in digoxin steady-state pharmacokinetics that would be expected to have clinical sequelae; thus, dosage adjustment does not appear warranted, based on pharmacokinetic considerations.

Clinical pharmacokinetics of alamifovir and its metabolites.

Alamifovir, a purine nucleotide analogue prodrug, and its hydrolyzed derivatives have shown preclinical efficacy activity against wild-type and lamivudine-resistant hepatitis B virus. Two studies were conducted to examine the single- and multiple-dose alamifovir pharmacokinetics after oral administration in healthy males. In study 1, subjects were given single doses (0.2 to 80 mg), with a subset receiving 20 mg in a fed state. Study 2 subjects were dosed with 2.5 to 15 mg twice daily for 15 days. Plasma samples were collected over 72 h in study 1 and over 24 h on days 1 and 15 in study 2. Concentrations of alamifovir and its major metabolites were determined using liquid chromatography/tandem mass spectrometry methods. The data were analyzed using a noncompartmental technique. Although alamifovir was rapidly absorbed, there was limited systemic exposure due to its rapid hydrolysis and formation of at least three metabolites, suggesting that alamifovir acts as a prodrug. The major metabolites detected were 602074 and 602076, with 602075 detectable only in higher-dose groups. Maximum 602074 plasma concentration was achieved at approximately 0.5 h (T(max)) and declined with a 1- to 2-h terminal half-life (t(1/2)). Maximum concentrations of 602076 (C(max)) averaged 10% of the 602074 C(max) and reached T(max) in 2.5 h with a 4-h t(1/2). Food appeared to decrease the extent of absorption of the compound. Multiple dosing resulted in minimal accumulation, and the concentrations following multiple doses could be predicted using the single-dose data. Alamifovir was well tolerated and the pharmacokinetics were characterized in these studies.

Insulin-like growth factor binding protein-1 is independently affected by ethnicity, insulin sensitivity, and leptin in healthy, glucose-tolerant young men.

We examined the relationships among IGF binding protein (IGFBP)-1, insulin sensitivity, and leptin in different ethnic groups (Asian Indians, Chinese, and Caucasians) using the euglycemic hyperinsulinemic clamp. Ten healthy, young and nondiabetic subjects of each ethnic group, matched for body mass index, age, and physical activity were studied. A euglycemic clamp was performed on all subjects. IGFBP-1, insulin, and leptin were measured after fasting and during the clamp. Fasting IGFBP-1 concentration was highest in Chinese (P = 0.027). Asian Indians had the lowest insulin sensitivity index (P = 0.006). The ratio of insulin to IGFBP-1 at fasting and throughout the euglycemic clamp was higher in Asian Indians. Fasting IGFBP-1 had a strong negative correlation with fasting leptin levels (r = -0.715, P = 0.001). Multiple linear regression demonstrated that fasting insulin, leptin, ethnicity, and insulin sensitivity were significant predictors for fasting IGFBP-1. IGFBP-1 is independently determined by ethnicity, insulin sensitivity, and leptin in glucose-tolerant men. The presence of relative insulin resistance and low fasting IGFBP-1 levels in Asian Indians may contribute to their higher risk of developing diabetes and cardiovascular disease.

Safety and efficacy of alamifovir in patients with chronic hepatitis B virus infection.

BACKGROUND/AIMS: Alamifovir is a purine nucleotide analogue prodrug that shows potent activity against wild type and lamivudine resistant hepatitis B virus in preclinical studies. The aim of this study was to assess the safety and potential antiviral effects of alamifovir in humans. METHODS: A randomised, placebo controlled, dose escalation study of oral alamifovir was conducted in 66 chronic hepatitis B infected patients who were selected based on stable HBV DNA (>10(5)copies/ml), with no significant liver pathology. They received either placebo or alamifovir at a total daily dose ranging from 2.5 to 20mg in single or divided doses for 28 days and were followed up for approximately 12 weeks after cessation of treatment. RESULTS: All doses showed significant antiviral activity, with mean plasma viral load reductions ranging from 1.5 to 2.6 log(10) after 28 days of dosing. Once and twice daily regimen for the same daily dose (5mg BID vs 10mg QD, 10mg BID vs 20mg QD) showed no apparent difference in the rate and extent of viral decline, or viral reduction at day 28. Post-treatment viral suppression was dose dependent. There were no serious adverse events attributable to study drug, nor were significant dose related events identified. CONCLUSIONS: Alamifovir has shown potent in vivo anti-HBV activity, with a favourable safety profile.

Effect of duloxetine on tolterodine pharmacokinetics in healthy volunteers.

AIM: To investigate the effect of duloxetine on the pharmacokinetics and tolerability of tolterodine and its active 5-hydroxymethyl metabolite (5-HM). METHODS: Sixteen healthy subjects received two 5-day treatment regimens in a randomized, double-blinded, crossover fashion: tolterodine (2 mg, BID) + duloxetine (40 mg, BID), tolterodine (2 mg, BID) + duloxetine placebo (BID). Plasma concentrations of tolterodine and 5-HM were measured on day 5. Adverse events, clinical safety laboratory data and vital signs were assessed during the study. RESULTS: Duloxetine increased the AUC(tau,ss) of tolterodine by 71%[geometric mean, 95% confidence interval (CI) 31, 123], and its C(max,ss) by 64% (CI 30, 106), and prolonged its t(1/2) by 14% (CI 1, 28). Duloxetine did not affect the plasma concentrations or t(1/2) of 5-HM. Laboratory data and vital signs did not reveal any clinically significant changes or abnormalities. CONCLUSIONS: Duloxetine exhibited minor inhibitory effects on the pharmacokinetics of tolterodine but not 5-HM. Coadministration of these drugs was well tolerated and demonstrated no significant safety findings in the studied population. These findings suggest that there should not be a need for routine adjustment of tolterodine dosage in the presence of duloxetine.

A review and assessment of potential sources of ethnic differences in drug responsiveness.

The International Conference on Harmonization (ICH) E5 guidelines were developed to provide a general framework for evaluating the potential impact of ethnic factors on the acceptability of foreign clinical data, with the underlying objective to facilitate global drug development and registration. It is well recognized that all drugs exhibit significant inter-subject variability in pharmacokinetics and pharmacologic response and that such differences vary considerably among individual drugs and depend on a variety of factors. One such potential factor involves ethnicity. The objective of the present work was to perform an extensive review of the world literature on ethnic differences in drug disposition and responsiveness to determine their general significance in relation to drug development and registration. A few examples of suspected ethnic differences in pharmacokinetics or pharmacodynamics were identified. The available literature, however, was found to be heterologous, including a variety of study designs and research methodologies, and most of the publications were on drugs that were approved a long time ago.

Olanzapine pharmacokinetics are similar in Chinese and Caucasian subjects.

AIM: To compare the pharmacokinetic profiles and dose proportionality of olanzapine in Chinese and Caucasian subjects. METHODS: Randomized, three-period study with 12 Chinese and 12 Caucasian, healthy, male subjects administered 2.5, 5 and 10 mg olanzapine. Noncompartmental pharmacokinetic parameters were derived. RESULTS: No statistically significant racial differences in the weight-normalized pharmacokinetic parameters were observed except for Vz/Fnorm, which was 17% lower at the 5- and 10-mg dose in the Chinese group (95% confidence interval 8.49, 10.1 and 8.05, 9.73, respectively), compared with the Caucasian group (9.53, 12.8 and 9.39, 12.0, respectively). Olanzapine's pharmacokinetics were linear and dose proportional in both racial groups. CONCLUSION: The pharmacokinetics of olanzapine are similar in both Chinese and Caucasian racial groups.

Duloxetine is both an inhibitor and a substrate of cytochrome P4502D6 in healthy volunteers.

BACKGROUND AND OBJECTIVES: Duloxetine, a potent dual reuptake inhibitor of serotonin and norepinephrine currently undergoing clinical investigation for treatment of depression and stress urinary incontinence, has the potential to act as both a substrate and an inhibitor of cytochrome P4502D6 (CYP2D6). Our objectives were to determine the effect of duloxetine on the pharmacokinetics of desipramine, a tricyclic antidepressant metabolized by CYP2D6 (study 1), and the effect of paroxetine, a potent CYP2D6 inhibitor, on duloxetine pharmacokinetics (study 2). METHODS: Subjects were healthy men and women between 21 and 63 years old. All subjects were genotypically CYP2D6 extensive metabolizers. In study 1, 50 mg of desipramine was administered as a single dose alone and in the presence of steady-state duloxetine 60 mg twice daily. In study 2, steady-state pharmacokinetics of duloxetine 40 mg once daily were determined in the presence and absence of steady-state paroxetine 20 mg once daily. RESULTS: Duloxetine increased the maximum plasma concentration of desipramine 1.7-fold and the area under the concentration-time curve 2.9-fold. Paroxetine increased the maximum plasma concentration of duloxetine and the area under the concentration-time curve at steady state 1.6-fold. Reports of adverse events were similar whether duloxetine was administered alone or in combination with desipramine or paroxetine. CONCLUSION: Duloxetine 60 mg twice daily is a moderately potent CYP2D6 inhibitor, intermediate between paroxetine and sertraline. The potent CYP2D6 inhibitor paroxetine has a moderate effect on duloxetine concentrations. The results of these 2 studies suggest that caution should be used when CYP2D6 substrates and inhibitors are coadministered with duloxetine.

Quinidine does not affect the renal clearance of moxonidine.

AIMS: To test the hypothesis that the renal clearance of moxonidine decreases when dosed with quinidine. METHODS: A randomized, two-period study was conducted with six healthy, male subjects orally dosed with either 0.2 mg moxonidine alone or 1 h after 400 mg quinidine sulphate. Pharmacokinetic parameters were calculated using a noncompartmental analysis method. RESULTS: When coadministered, quinidine significantly increased moxonidine AUC and t1/2 by 11% and 15%, respectively, and decreased CL/F by 10% compared with the control dosing. CLR and Aeur were not significantly different. Clinically, both treatments were well tolerated. CONCLUSIONS: Quinidine does not affect the renal clearance of moxonidine. The decrease in apparent total clearance of moxonidine with quinidine coadministration was possibly due to metabolic inhibition, though not likely to be clinically significant.