Covariate effects have a limited impact on tPDE4i. There was a general association between tPDE4i and the occurrence of common AEs in patients with COPD.
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.
Roflumilast has novel anti-inflammatory activity in COPD that provides the physician with a treatment option beyond bronchodilation. It can be co-administered with many medications commonly used by patients with COPD and its anti-inflammatory activity provides incremental benefits on top of existing therapies. Future research will further elucidate the impact of roflumilast on COPD and beyond, while alternative dosing regimens may offer a means to ameliorate transient tolerability issues.
This nonrandomized, fixed-sequence, 3-period study investigated potential pharmacokinetic interactions between the leukotriene receptor antagonist montelukast, approved for the treatment of asthma, and roflumilast, an oral, once-daily phosphodiesterase 4 inhibitor in clinical development for asthma and chronic obstructive pulmonary disease. Pharmacokinetic interactions are of interest because both drugs may be coadministered and share a common metabolic pathway via cytochrome P450 3A. Single-dose montelukast (10 mg, po) was administered alone in period 1, followed by repeated once-daily roflumilast alone (500 microg, po) for 12 days (period 2). In period 3, 500 microg qd roflumilast was coadministered with 10 mg qd montelukast for 8 days. Different pharmacokinetic parameters were evaluated for montelukast alone, for steady-state roflumilast and its pharmacologically active metabolite roflumilast N-oxide alone, for single-dose montelukast when coadministered with steady-state roflumilast, and for steady-state roflumilast and its N-oxide metabolite when coadministered with steady-state montelukast. The AUC and Cmax of montelukast were modestly increased by 9% and 8%, respectively, when single-dose montelukast was coadministered with steady-state roflumilast. The pharmacokinetics of roflumilast and roflumilast N-oxide in steady state remained unchanged when repeat-dose montelukast was coadministered at steady-state. Concomitant administration of both drugs was well tolerated. These findings suggest that no dose adjustment is warranted for either drug when roflumilast and montelukast are coadministered.
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