Rolf Herzog scite author profile

Effects of single and multiple doses of oral ketoconazole on roflumilast and its active metabolite, roflumilast N-oxide, were investigated in healthy subjects. In study 1, subjects (n = 26) received oral roflumilast 500 microg once daily for 11 days and a concomitant 200-mg single dose of ketoconazole on day 11. In study 2, subjects (n = 16) received oral roflumilast 500 microg on days 1 and 11 and a repeated dose of ketoconazole 200 mg twice daily from days 8 to 20. Coadministration of single-dose ketoconazole with steady-state roflumilast increased the AUC of roflumilast by 34%; C(max) was unchanged. For roflumilast N-oxide, AUC and C(max) decreased by 12% and 20%, respectively. Repeated doses of ketoconazole increased the AUC and C(max) of roflumilast by 99% and 23%, respectively; for roflumilast N-oxide, AUC was unchanged, and C(max) decreased by 38%. No clinically relevant adverse events were observed. Coadministration of ketoconazole and roflumilast does not require dose adjustment of roflumilast.

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Steady-State Pharmacokinetics of Roflumilast and Roflumilast N-Oxide in Patients with Mild and Moderate Liver Cirrhosis

Hermann¹,

Nassr²,

Lahu³

et al. 2007

Clinical Pharmacokinetics

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Mild and moderate liver cirrhosis resulted in distinct alterations of exposure to roflumilast but only in modest alterations of exposure to roflumilast N-oxide. The integrated exposure-weighted assessment of the observed pharmacokinetic changes of roflumilast and roflumilast N-oxide (tPDE4i) indicates modest average exposure increases to the sum of both compounds. These findings and the favourable tolerability profile suggest that roflumilast can be safely used in patients with mild and moderate liver cirrhosis without special precautions or dose adjustment.

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Effect of Fluvoxamine on the Pharmacokinetics of Roflumilast and??Roflumilast??N-Oxide

Richter¹,

Lahu²,

Huennemeyer³

et al. 2007

Clinical Pharmacokinetics

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Co-administration of roflumilast and fluvoxamine affects the disposition of roflumilast and its active metabolite roflumilast N-oxide most likely via a potent dual pathway inhibition of CYP1A2 and CYP2C19 by fluvoxamine. The exposure increases observed for roflumilast N-oxide are suggested to be attributable to CYP2C19 co-inhibition by fluvoxamine and thus, are not to be expected to occur when roflumilast is co-administered with more selective CYP1A2 inhibitors.

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Investigation of a Potential Food Effect on the Pharmacokinetics of Roflumilast, an Oral, Once‐Daily Phosphodiesterase 4 Inhibitor, in Healthy Subjects

Hametner¹,

Hermann²,

Hünnemeyer³

et al. 2006

The Journal of Clinical Pharma

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This open, randomized, single-dose crossover study investigated effects of a high-fat meal on the pharmacokinetics of roflumilast and its major active N-oxide metabolite. Twelve healthy subjects received oral roflumilast 500 microg (2 x 250 microg) after overnight fasting and after breakfast. Blood was sampled up to 54 hours for pharmacokinetic profiling of roflumilast and N-oxide. Geometric mean ratios (fed/fasted) for point estimates (PE) and 90% confidence intervals (CI) were calculated for AUC(0-last), AUC(0-infinity), and C(max) of both compounds. After the meal, roflumilast C(max) (PE, 0.59; 90% CI, 0.49-0.70) was modestly reduced; N-oxide C(max) (PE, 0.95; 90% CI, 0.90-1.01) was unchanged. Roflumilast t(max) was delayed in fed state (2.0 +/- 0.4 hours) versus fasted state (1.0 +/- 0.2 hours); N-oxide t(max) was unaltered. No significant food effect on roflumilast AUC(0-last) (PE, 1.04; 90% CI, 0.90-1.21), AUC(0-infinity) (PE, 1.12; 90% CI, 1.00-1.25), and respective N-oxide AUCs (PE, 0.91; 90% CI, 0.79-1.04; PE, 0.99; 90% CI, 0.92-1.06) occurred. Because roflumilast N-oxide is the major contributor to roflumilast's overall pharmacologic effects, these findings suggest that roflumilast can be taken with or without food.

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Effects of rifampicin on the pharmacokinetics of roflumilast and roflumilast N‐oxide in healthy subjects

Nassr¹,

Huennemeyer²,

Herzog³

et al. 2009

Brit J Clinical Pharma

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WHAT IS ALREADY KNOWN ABOUT THIS SUBJECT• Rifampicin is an antibiotic that is used to treat pulmonary tuberculosis. It induces several cytochrome P450 (CYP) enzymes and some drug transporter proteins; its greatest effect is as an inducer of CYP3A4 in the liver and in the small intestine.• Mechanistic drug-drug interaction studies with prototypic CYP3A4 inducers provide essential information for clinical drug development of new chemical entities that are metabolized by the involved CYP450 enzymes.• Roflumilast is a phosphodiesterase 4 (PDE4) inhibitor being developed for the treatment of chronic obstructive pulmonary disease.• The pharmacological effect is based on the total PDE4 inhibitory activity, which represents the combined PDE4 inhibitory activity of roflumilast and its major active metabolite, roflumilast N-oxide.• In patients with chronic obstructive pulmonary disease, pulmonary tuberculosis can be an accompanying disease. Thus, the drug-drug interaction between rifampicin and roflumilast is of clinical relevance. WHAT THIS STUDY ADDS• The pharmacokinetics of roflumilast and of its major pharmacologically active metabolite roflumilast N-oxide is affected by co-administration of rifampicin.• The potent induction of CYP3A4 and other CYP450 enzymes (such as CYP2C19 and extrahepatic CYP1A1) by rifampicin has led to a 58% decrease in the total PDE4 inhibitory activity of roflumilast.• Co-administration of rifampicin with roflumilast may reduce the therapeutic efficacy of roflumilast. AIMSTo evaluate the effect of co-administration of rifampicin, an inducer of cytochrome P450 (CYP)3A4, on the pharmacokinetics of roflumilast and roflumilast N-oxide. Roflumilast is an oral, once-daily phosphodiesterase 4 (PDE4) inhibitor, being developed for the treatment of chronic obstructive pulmonary disease. Roflumilast is metabolized by CYP3A4 and CYP1A2, with further involvement of CYP2C19 and extrahepatic CYP1A1. In vivo, roflumilast N-oxide contributes >90% to the total PDE4 inhibitory activity. METHODSSixteen healthy male subjects were enrolled in an open-label, three-period, fixed-sequence study. They received a single oral dose of roflumilast 500 mg on days 1 and 12 and repeated oral doses of rifampicin 600 mg once daily on days 5-15. Plasma concentrations of roflumilast and roflumilast N-oxide were measured for up to 96 h. Test/Reference ratios and 90% confidence intervals (CIs) of geometric means for AUC and Cmax of roflumilast and roflumilast N-oxide and for oral apparent clearance (CL/F) of roflumilast were estimated. RESULTSDuring the steady-state of rifampicin, the AUC0 CONCLUSIONSCo-administration of rifampicin and roflumilast led to a reduction in total PDE4 inhibitory activity of roflumilast by about 58%. The use of potent cytochrome P450 inducers may reduce the therapeutic effect of roflumilast.

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Rolf Herzog

Effect of Single and Repeated Doses of Ketoconazole on the Pharmacokinetics of Roflumilast and Roflumilast N‐Oxide

Steady-State Pharmacokinetics of Roflumilast and Roflumilast N-Oxide in Patients with Mild and Moderate Liver Cirrhosis

Effect of Fluvoxamine on the Pharmacokinetics of Roflumilast and??Roflumilast??N-Oxide

Investigation of a Potential Food Effect on the Pharmacokinetics of Roflumilast, an Oral, Once‐Daily Phosphodiesterase 4 Inhibitor, in Healthy Subjects

Effects of rifampicin on the pharmacokinetics of roflumilast and roflumilast N‐oxide in healthy subjects

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