Dose-proportional intraindividual single- and repeated-dose pharmacokinetics of roflumilast, an oral, once-daily phosphodiesterase 4 inhibitor

The dose-proportional, intraindividual, single- and repeated-dose pharmacokinetics of roflumilast, an oral, once-daily phosphodiesterase 4 inhibitor under investigation for chronic obstructive pulmonary disease and asthma, was investigated in healthy subjects. In an open, randomized, 2-period, 2-sequence crossover study, 15 subjects received immediate-release tablets of roflumilast 250 or 500 microg as single (day 1) and as repeated, once-daily doses for 8 days (days 5-12). Dose-adjusted point estimates and 90% confidence intervals of test (500 microg)/reference (250 microg) ratios for AUC and Cmax of roflumilast and its pharmacologically active N-oxide metabolite after single and repeated dosing were all within the standard equivalence acceptance range (0.80, 1.25) indicating dose proportionality. The pharmacokinetic properties of both roflumilast dosage forms provide clinically relevant evidence of predictable, intraindividual total (AUC) and maximum (Cmax) exposure of roflumilast and roflumilast N-oxide. Repeated oral dosing with roflumilast 250 and 500 microg once daily was well tolerated.     

The oral, once-daily phosphodiesterase 4 inhibitor roflumilast lacks relevant pharmacokinetic interactions with inhaled budesonide

This open-label, randomized, 3-period crossover study evaluated the pharmacokinetic interaction potential of roflumilast and budesonide following repeated coadministration to healthy male subjects (N = 12). Treatments consisted of oral roflumilast 500 mug, once daily, orally inhaled budesonide 800 mug, twice daily, and concomitant administration of both treatments for 7 days each. Roflumilast and roflumilast N-oxide in plasma and budesonide serum levels were measured by specific assays. Geometric mean test/reference ratios of steady-state pharmacokinetic parameters were evaluated by analysis of variance. Safety and tolerability were monitored. Pharmacokinetic parameters of roflumilast, roflumilast N-oxide, and budesonide after coadministration of roflumilast and budesonide were similar to those after mono-treatment. Compared with budesonide and roflumilast mono-treatments, slightly lower maximum serum/plasma concentration (C(max)) and area under the curve (AUC) values of roflumilast N-oxide and budesonide (ranging from -8% to -16%) were observed with combined treatment. All test/reference ratios were within predefined equivalence acceptance ranges for roflumilast AUC (0.80, 1.25) and C(max) (0.70, 1.43) and for roflumilast N-oxide and budesonide AUC and C(max) (all 0.67, 1.50). Coadministration of roflumilast and budesonide did not alter the steady-state disposition of each other and did not affect safety and tolerability of either drug.     

Roflumilast, a once-daily oral phosphodiesterase 4 inhibitor, lacks relevant pharmacokinetic interactions with inhaled salbutamol when co-administered in healthy subjects

OBJECTIVE: Roflumilast is an oral, once-daily phosphodiesterase 4 inhibitor under investigation for the treatment of chronic obstructive pulmonary disease and asthma. In clinical practice, the drug is likely to be co-administered with inhaled bronchodilating beta2-adrenoceptor agonists. Therefore, this study investigated the pharmacokinetic characteristics of roflumilast and its pharmacodynamically active metabolite roflumilast N-oxide when co-administered with orally inhaled salbutamol in healthy subjects. METHODS: In this open, randomized clinical study, 12 healthy male subjects received repeated doses of oral roflumilast 500 microg once daily, orally inhaled salbutamol 200 microg 3 times daily, and a combination of both drugs over 7 days according to a 3-period, changeover design with 14 days washout between treatments. RESULTS: Co-administration of roflumilast and salbutamol did not markedly change roflumilast or roflumilast N-oxide disposition. Point estimates (90% confidence intervals) of area under the curve from 0-24 h (AUC 0-24) and maximum plasma concentration in steady state (Cmax,ss) for roflumilast with salbutamol versus roflumilast alone were 1.05 (0.94, 1.17) and 0.97 (0.84, 1.10); the respective point estimates (90% confidence intervals) for AUC 0-24 and Cmax,ss of roflumilast N-oxide were 0.98 (0.91, 1.06) and 0.98 (0.92, 1.03). Roflumilast co-administration did not alter the pharmacokinetics of steady state salbutamol. The respective point estimates (90% confidence intervals) for AUC 0-6 and Cmax,ss of salbutamol with roflumilast versus salbutamol alone were 1.10 (0.99, 1.21), 1.08 (0.91, 1.28). The combination of both drugs was well tolerated. CONCLUSION: There were no relevant pharmacokinetic interactions between roflumilast and salbutamol at therapeutically effective doses.     

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

AIMS

To 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.

METHODS

Sixteen healthy male subjects were enrolled in an open-label, three-period, fixed-sequence study. They received a single oral dose of roflumilast 500 µg 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 C_max of roflumilast and roflumilast N-oxide and for oral apparent clearance (CL/F) of roflumilast were estimated.

RESULTS

During the steady-state of rifampicin, the AUC_0–∞ of roflumilast decreased by 80% (point estimate 0.21; 90% CI 0.16, 0.27); C_max by 68% (0.32; CI 0.26, 0.39); for roflumilast N-oxide, the AUC_0–∞ decreased by 56% (0.44; CI 0.36, 0.55); C_max increased by 30% (1.30; 1.15, 1.48); total PDE4 inhibitory activity decreased by 58% (0.42; 0.38, 0.48).

CONCLUSIONS

Co-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.     

Apixaban,an oral,direct factor Xa inhibitor: single dose safety,pharmacokinetics, pharmacodynamics and food effect in healthy subjects

Aims

To evaluate apixaban single dose safety, tolerability, pharmacokinetics and pharmacodynamics and assess the effect of food on apixaban pharmacokinetics.

Methods

A double-blind, placebo-controlled, single ascending-dose, first-in-human study assessed apixaban safety, pharmacokinetics and pharmacodynamics in healthy subjects randomized to oral apixaban (n = 43; 0.5–2.5 mg as solution or 5–50 mg as tablets) or placebo (n = 14) under fasted conditions. An open label, randomized, two treatment crossover study investigated apixaban pharmacokinetics/pharmacodynamics in healthy subjects (n = 21) administered apixaban 10 mg in fasted and fed states. Both studies measured apixaban plasma concentration, international normalized ratio (INR), activated partial thromboplastin time (aPTT) and prothrombin time (PT) or a modified PT (mPT).

Results

In the single ascending-dose study increases in apixaban exposure appeared dose-proportional. Median t_max occurred 1.5–3.3 h following oral administration. Mean terminal half-life ranged between 3.6 and 6.8 h following administration of solution doses ≤2.5 mg and between 11.1 and 26.8 h for tablet doses ≥5 mg. Concentration-related changes in pharmacodynamic assessments were observed. After a 50 mg dose, peak aPTT, INR and mPT increased by 1.2-, 1.6- and 2.9-fold, respectively, from baseline. In the food effect study: 90% confidence intervals of geometric mean ratios of apixaban C_max and AUC in a fed vs. fasted state were within the predefined no effect (80–125%) range. Apixaban half-life was approximately 11.5 h. The effect of apixaban on INR, PT and aPTT was comparable following fed and fasted administration.

Conclusions

Single doses of apixaban were well tolerated with a predictable pharmacokinetic/pharmacodynamic profile and a half-life of approximately 12 h. Apixaban can be administered with or without food.     

The effect of lansoprazole, an OCT inhibitor, on metformin pharmacokinetics in healthy subjects

Purpose

Gastro-esophageal reflux disease is common in patients with type 2 diabetes. A common treatment is the co-administration of proton-pump inhibitors (PPIs) and metformin. To date, however, the effects of co-administration of PPIs, which inhibit organic cation transporter (OCT) activity, on the action of metformin (a well-known substrate of OCTs) have not been clearly demonstrated.

Methods

This was a randomized, double-blind, two-way crossover, placebo-controlled trial. Healthy male volunteers (n?=?20) received metformin (single dose 1,000 mg on day 1 and single dose 750 mg on day 2, with a 12-h interval) co-administered with placebo or with lansoprazole (30 mg). Plasma concentrations of metformin were measured up to 24 h after the second dose. The glucose-lowering effects of metformin were evaluated by the oral glucose tolerance test before and after each single dose of metformin within the 2-day period.

Results

Lansoprazole increased the mean metformin maximum plasma concentration and area under the plasma concentration–time curve from zero to 24 h after the second dosing by 15 and 17 %, respectively (P?<?0.05). Moreover, lansoprazole prolonged the metformin elimination half-life from 3.9 to 4.5 h and decreased its renal clearance by 13 % (P?<?0.05). However, lansoprazole had no effect on the maximum glucose level and the area under the serum glucose concentration–time curve of metformin.

Conclusions

Collectively, we found a modest pharmacokinetic drug interaction between lansoprazole and metformin, which suggests that the concomitant use of these drugs should be appropriately monitored. Further studies are warranted to assess changes in metformin pharmacokinetics in patients with diabetes receiving long-term lansoprazole therapy.     

Absence of food effect on the pharmacokinetics of telbivudine following oral administration in healthy subjects

The influence of food on the pharmacokinetics of telbivudine, a candidate antiviral agent against hepatitis B virus (HBV), was investigated in healthy adult subjects following a 600-mg oral dose administered with and without a high-fat/high-calorie meal. Telbivudine was well tolerated under fasting and fed conditions. Oral absorption of telbivudine as measured by maximum plasma concentration (Cmax), time to reach Cmax (Tmax), and area under the plasma concentration-time curve (AUC(0-t) and AUC(0-infinity)) was not altered by food intake immediately before oral dosing. Values of Cmax, Tmax, and AUC were comparable when telbivudine was administered under fed and fasting conditions. Results from this study indicated that the absorption of telbivudine was not affected by a high-fat/high-calorie meal; telbivudine can therefore be administered orally with no regard to the timing of meals.     

Update on roflumilast, a phosphodiesterase 4 inhibitor for the treatment of chronic obstructive pulmonary disease

Phosphodiesterase 4 (PDE4) is a member of the PDE enzyme superfamily that inactivates cyclic adenosine monophosphate and cyclic guanosine monophosphate, and is the main PDE isoenzyme occurring in cells involved in inflammatory airway disease such as chronic obstructive pulmonary disease (COPD). COPD is a preventable and treatable disease and is characterized by airflow obstruction that is not fully reversible. Chronic progressive symptoms, particularly dyspnoea, chronic bronchitis and impaired overall health are worse in those who have frequent, acute episodes of symptom exacerbation. Although several experimental PDE4 inhibitors are in clinical development, roflumilast, a highly selective PDE4 inhibitor, is the first in its class to be licensed, and has recently been approved in several countries for oral, once-daily treatment of severe COPD. Clinical trials have demonstrated that roflumilast improves lung function and reduces exacerbation frequency in COPD. Furthermore, its unique mode of action may offer the potential to target the inflammatory processes underlying COPD. Roflumilast is effective when used concomitantly with all forms of bronchodilator and even in patients treated with inhaled corticosteroids. Roflumilast thus represents an important addition to current therapeutic options for COPD patients with chronic bronchitis, including those who remain symptomatic despite treatment. This article reviews the current status of PDE4 inhibitors, focusing on the pharmacokinetics, efficacy and safety of roflumilast. In particular, it provides an overview of the effects of roflumilast on lung function and exacerbations, glucose homoeostasis and weight loss, and the concomitant use of long-acting beta(2)-adrenergic receptor agonists and short-acting muscarinic receptor antagonists.     

磷酸二酯酶-4抑制剂罗氟司特的药理与临床研究新进展

罗氟司特为磷酸二酯酶-4(PDE4)抑制剂,对肺部系统具有高效的抗炎活性。动物和临床试验结果显示,其对慢性阻塞性肺病(COPD)具有很好的疗效,且不良反应较少。罗氟司特可减轻伴慢性支气管炎和有加重史患者严重COPD恶化的风险,更多的研究有待进一步评价。现对罗氟司特治疗COPD的作用机制、药效学、药动学、临床评价和安全性做一综述。     

Lack of effect of food on the steady state pharmacokinetics of BMS-181101, an antidepressant,in healthy subjects

The effect of food on the pharmacokinetics of BMS-181101, a new anti-depressant under development, was investigated in 12 healthy male volunteers at steady state. Each subject received a 15 mg oral dose of BMS-181101 twice a day (q 12 h) for 11 days and a morning dose of BMS-181101 on day 12. Six subjects were randomly assigned to receive BMS-181101 under fasted conditions from days 1 to 6 and then crossed over to fed conditions from days 7 to 12. The other six subjects received the reverse conditions, fed for days 1–6 and fasted for days 7–12. Serial blood samples were collected up to 12 h on days 6 and 12 following the administration of the morning dose. In addition, trough blood samples were collected on days 4, 5, 10, and 11 prior to the morning dose. Plasma samples were analyzed for intact BMS-181101 using a validated high-performance liquid chromatography method with an electrochemical detector. BMS-181101 was well tolerated both with and without ingestion of food. The statistical evaluation of the C_min values indicated that steady state of BMS-181101 was achieved by the fourth day of dosing regardless of whether the subject was fasted or fed. When BMS-181101 was administered with food, C_max was reduced by about 25% and t_max was prolonged by 1 h. However, AUC_tau, t_1/2, and time to attain steady state of BMS-181101 were not altered by ingestion of food. In summary, BMS-181101 can be given with food without adversely impacting the safety or pharmacokinetic profiles of the drug. © 1997 John Wiley & Sons, Ltd.     

Single-dose FTY720 pharmacokinetics, food effect, and pharmacological responses in healthy subjects

AIMS: FTY720 is a sphingosine-1-phosphate receptor agonist that redirects lymphocytes from the circulation to lymph nodes without impairing lymphocyte function. It is being developed as an immunomodulator for the prevention of acute rejection after organ transplantation. This study was performed to provide guidance on administration with respect to meals and to measure pharmacologic responses in healthy subjects. METHODS: In this randomized, two-period, crossover study, 14 healthy subjects received placebo on day -1 of each period with baseline circadian measurements of lymphocyte count and heart rate. Subjects subsequently received a single 1 mg oral dose of FTY720 on day 1 under fasting conditions and after a high fat meal. Blood FTY720 concentrations, lymphocyte count, and supine heart rate were assessed over an 8 day period after each FTY720 dose. The effect of food on FTY720 pharmacokinetics was assessed by standard bioequivalence testing. RESULTS: Both the peak concentration (0.65 +/- 0.17 vs 0.64 +/- 0.18 ng ml(-1)) and total exposure (AUC 149 +/- 65 vs 139 +/- 43 ng ml(-1) h) did not differ significantly between fasting and fed states, respectively. The corresponding fed/fasting ratios and 90% confidence intervals were 1.00 (0.86, 1.17) for Cmax and 0.98 (0.86, 1.11) for AUC. Under both treatment conditions peripheral blood lymphocyte count decreased from baseline by 38 +/- 9% over the first 2 days postdose and then increased towards predose values over the subsequent week. Whereas a circadian rhythm in supine heart rate was preserved in the presence of FTY720, the heart rate vs time curve was shifted downwards by 10% over the first day postdose and then recovered to prestudy values by days 3-5 postdose. These changes were asymptomatic. CONCLUSIONS: Single 1 mg doses of FTY720 were well tolerated in healthy subjects and elicited a moderate decrease in peripheral blood lymphocyte count and a transient decrease in heart rate consistent with its pharmacological mode of action. FTY720 may be administered without regard to the timing of meals or their fat content.     

Effect of food on the bioavailability of pentopril, an angiotensin-converting-enzyme inhibitor, in healthy subjects

Pentopril (CGS 13945) was administered in 125-mg capsules to eight healthy men on two occasions according to a randomized schedule; on one occasion in the fasting state and on the other occasion immediately following the ingestion of a standardized meal. Unlike captopril, a prototype angiotensin-converting-enzyme inhibitor, there was no significant difference in the peak plasma concentration for either the drug or its active metabolite (CGS 13934) between the fasting and the fed states. There was also no appreciable change in the area under the plasma curve for the drug and its metabolite after administration of drug in the presence of food compared with a fasting state. There was, however, a lag time in drug absorption after ingestion of food, which resulted in a significant increase in peak time for the active metabolite in plasma. Food delays the body's absorption of the drug and hence the appearance of its active metabolite in plasma without any significant effect on the relative bioavailability. Because relative bioavailability is not affected in the presence of food, such a delay may not have any therapeutic importance on chronic administration.     

Effect of rifampicin on the pharmacokinetics and pharmacodynamics of saxagliptin, a dipeptidyl peptidase-4 inhibitor, in healthy subjects

AIM

To investigate the effect of co-administration of rifampicin, a potent inducer of cytochrome P450 (CYP) 3A4 enzymes, on the pharmacokinetics (PK) and pharmacodynamics (PD) of saxagliptin and 5-hydroxy saxagliptin in healthy subjects. Saxagliptin is metabolized by CYP3A4/3A5 to 5-hydroxy saxagliptin, its major pharmacologically active metabolite.

METHODS

In a non-randomized, open label, single sequence design, 14 healthy subjects received single oral doses of saxagliptin 5 mg with and without steady-state rifampicin (600 mg once daily for 6 days). PK (saxagliptin and 5-hydroxy saxagliptin) and PD (plasma DPP-4 activity) were measured for up to 24 h on days 1 and 7.

RESULTS

Concomitant administration with rifampicin resulted in 53% (point estimate 0.47, 90% CI 0.38, 0.57) and 76% (point estimate 0.24, 90% CI 0.21, 0.27) decreases in the geometric mean C_max and AUC values of saxagliptin, respectively, with a 39% (point estimate 1.39, 90% CI 1.23, 1.56) increase in the geometric mean C_max and no change (point estimate 1.03, 90% CI 0.97, 1.09) in the AUC of 5-hydroxy saxagliptin. Similar maximum % inhibition and area under the % inhibition−time effect curve over 24 h for DPP-4 activity were observed when saxagliptin was administered alone or with rifampicin. The saxagliptin total active moieties exposure (AUC) decreased by 27% (point estimate 0.73, 90% CI 0.66, 0.81). Saxagliptin with or without rifampicin in this study was generally well tolerated.

CONCLUSIONS

Lack of change of PD effect of saxagliptin is consistent with the observed 27% reduction in systemic exposure to the total active moieties, which is not considered clinically meaningful. Based on these findings, it is not necessary to adjust the saxagliptin dose when co-administered with rifampicin.     

Effect of food on the pharmacokinetics of cyclosporine in healthy subjects following oral and intravenous administration

The pharmacokinetics of cyclosporine were studied in healthy subjects following administration of cyclosporine both orally (10 mg kg-1) and intravenously (4 mg kg-1) without and with high fat meals. Both blood and plasma samples (separated at 37 degrees C) were analyzed for cyclosporine concentration. Blood and plasma clearances of cyclosporine were calculated to be 0.36 and 0.47 L hr-1 Kg-1, respectively, and volume of distribution at steady state was calculated to be 1.21 L Kg-1, when cyclosporine was administered without a high fat meal. Using plasma analysis, the oral bioavailability of cyclosporine was estimated to be 21 and 79%, when administered without and with a high fat meal, respectively. When cyclosporine was administered intravenously together with a high fat meal, both clearance and volume of distribution increased significantly. Blood and plasma clearances of cyclosporine were 0.44 and 0.70 L hr-1 Kg-1, respectively, when cyclosporine was administered along with a high fat meal. We conclude that food not only enhances the absorption of cyclosporine but also enhances its clearance and volume of distribution. The observed variability in clearance, bioavailability, and volume of distribution values for cyclosporine across various pharmacokinetic studies can be partially accounted by the type of food administered and the sampling matrix used for analysis.     

Effect of food and gender on the pharmacokinetics of RP 73401, a phosphodiesterase IV inhibitor

OBJECTIVE: Early exploratory clinical pharmacokinetic studies can provide valuable information for the design and control of subsequent phase 2 studies. This philosophy was instituted for the compound RP 73401, a specific phosphodiesterase IV inhibitor, that was being developed simultaneously for delivery by both oral and pulmonary routes of administration. The objective of these studies was to separately evaluate the effect of food and gender on the pharmacokinetics of RP 73401 using small-scale focused pilot studies. METHODS: In the first study, 400 mcg of inhaled RP 73401 were administered to male and female healthy volunteers (n = 8 f, 8 m. In the second study, 400 mcg oral RP 73401 were administered to healthy male volunteers (n = 8) in the fed and fasted state in a crossover fashion. Serial plasma samples were collected for 24 hours and analyzed for RP 73401 using an HPLC method with post-column photochemical reaction and fluorescence detection that had a minimum quantifiable limit of 10 pg/ml. Pharmacokinetic parameters were calculated using non-compartmental techniques. RESULTS: Comparison of male and female pharmacokinetics following inhalation administration showed no statistically significant differences in the absorption and disposition of RP 73401 with respect to AUC, Cmax, tmax, and t1,2 values. Conversely, RP 73401 administered subsequently to a high fat meal showed a 51% reduction in Cmax and a 5-fold prolongation in tmax as compared to the fasted state. However, there was no statistically significant difference in the systemic availability of RP 73401 as assessed through AUC0-infinity comparisons. CONCLUSIONS: These results successfully allowed the uncomplicated inclusion of females in oral and inhalation studies with RP 73401 and indicated the need to address oral drug dosing conditions in order to minimize sources of pharmacokinetic variability in subsequent phase 2 studies.     

Safety,pharmacokinetics and pharmacodynamics of multiple oral doses of apixaban,a factor Xa inhibitor,in healthy subjects

Aim

Apixaban is an oral factor Xa inhibitor approved for stroke prevention in atrial fibrillation and thromboprophylaxis in patients who have undergone elective hip or knee replacement surgery and under development for treatment of venous thromboembolism. This study examined the safety, pharmacokinetics and pharmacodynamics of multiple dose apixaban.

Method

This double-blind, randomized, placebo-controlled, parallel group, multiple dose escalation study was conducted in six sequential dose panels – apixaban 2.5, 5, 10 and 25 mg twice daily and 10 and 25 mg once daily– with eight healthy subjects per panel. Within each panel, subjects were randomized (3:1) to oral apixaban or placebo for 7 days. Subjects underwent safety assessments and were monitored for adverse events (AEs). Blood samples were taken to measure apixaban plasma concentration, international normalized ratio (INR), activated partial thromboplastin time (aPTT) and modified prothrombin time (mPT).

Results

Forty-eight subjects were randomized and treated (apixaban, n = 36; placebo, n = 12); one subject receiving 2.5 mg twice daily discontinued due to AEs (headache and nausea). No dose limiting AEs were observed. Apixaban maximum plasma concentration was achieved ∼3 h post-dose. Exposure increased approximately in proportion to dose. Apixaban steady-state concentrations were reached by day 3, with an accumulation index of 1.3–1.9. Peak : trough ratios were lower for twice daily vs. once daily regimens. Clotting times showed dose-related increases tracking the plasma concentration–time profile.

Conclusion

Multiple oral doses of apixaban were safe and well tolerated over a 10-fold dose range, with pharmacokinetics with low variability and concentration-related increases in clotting time measures.