Use of a 4-week up-titration regimen of roflumilast in patients with severe COPD

Abstract

Background

The oral selective phosphodiesterase-4 inhibitor roflumilast (ROF) reduces exacerbations in patients with severe COPD. Adverse events (AEs) can cause early ROF discontinuation. Alternative dosing strategies may help patients continue their therapy.

Methods

In this multicenter, double-blind trial, 1,321 patients with severe COPD were randomized 1:1:1 to 4 weeks’ treatment with ROF 250 µg once daily (OD), 500 µg every other day (EOD), or 500 µg OD, each followed by ROF 500 µg OD for 8 weeks, plus standard therapy. The primary end point was the percentage of patients prematurely discontinuing study treatment.

Results

Patients in the 250 µg OD/500 µg OD group had significantly fewer treatment discontinuations (odds ratio [OR] 0.66 [95% CI 0.47–0.93], p=0.017) and lower rates of AEs of interest such as diarrhea, nausea, headache, decreased appetite, insomnia and abdominal pain (OR 0.63 [95% CI 0.47–0.83], p=0.001) compared with those in the 500 µg OD group. Although rates of discontinuation and AEs of interest were numerically lower with ROF 500 µg EOD/500 µg OD, the difference was not significant (OR 0.76, p=0.114, and OR 0.78, p=0.091, respectively) compared with ROF 500 µg OD.

Conclusion

A dose of ROF 250 µg OD for 4 weeks before escalation to the approved maintenance dose of 500 µg OD resulted in reduced treatment discontinuation and improved tolerability.

Keywords:

• roflumilast
• COPD
• discontinuation
• adverse event

Introduction

Severe exacerbations of COPD are associated with a poor prognosis.^1–3 Roflumilast (ROF) is a selective, oral phosphodiesterase-4 (PDE4) inhibitor used for the treatment of patients with severe COPD associated with chronic bronchitis and a history of exacerbations.⁴ Previous studies have shown that ROF as an add-on to inhaled COPD therapy reduces exacerbations in this patient population.^5,6 More recently, this has been shown in the ROF and Exacerbations in patients receiving Appropriate Combination Therapy (REACT) study – in patients using ROF therapy in addition to an inhaled corticosteroid (ICS)/long-acting beta agonist (LABA) ± long-acting muscarinic antagonist (LAMA) combination⁷ – a finding most evident in those with a history of hospitalization.⁸

Patients initiating treatment with the approved 500 µg dose of ROF may report side effects in the first few weeks, including diarrhea, nausea, headache, insomnia, abdominal pain, loss of appetite and a reduction in body weight.^4,6,9 These are predominantly mild to moderate in severity and, with the exception of body weight reduction, typically transient – often resolving within the first few weeks of treatment.¹⁰ However, they are a common cause of early treatment discontinuation. Overall rates of discontinuations for patients taking 500 µg of ROF in recent 52-week clinical trials have been in the region of 30%,^7,11 although the rates of discontinuation are thought to be higher in clinical practice.¹² Therefore, alternative dosing strategies to improve tolerability over the first few weeks of treatment may help patients continue their therapy.

The present study, referred to as OPTIMIZE (Clinical-Trials.gov: NCT2165826), investigated whether treatment discontinuation rates could be reduced and tolerability could be improved by using a reduced dose of ROF for a short initial treatment period. Phase I dose-ranging and modeling studies¹³ have previously suggested that a daily dose of 250 µg is associated with an improved side effect profile compared with the approved 500 µg dose. However, the 250 µg dose is less efficacious, associated with less forced expiratory volume in 1 second (FEV₁) improvement, than the 500 µg dose^14,15 and is not appropriate for long-term maintenance therapy.

The 12-week OPTIMIZE study evaluated the tolerability and discontinuation rate associated with a daily dose of 250 µg ROF for the first 4 weeks, before escalation to 500 µg for 8 weeks. In a parallel treatment arm, 500 µg was given on alternate days for the first 4 weeks of treatment, before increasing to 500 µg daily. The results of both up-titration strategies were compared with 500 µg dose daily, taken continuously for 12 weeks. Pharmacokinetic analyses were undertaken to evaluate drug exposure in patients receiving the three treatment strategies to assess any correlation between drug exposure and ability to tolerate ROF.

Methods

Patients

Patients aged ≥40 years with a history of COPD associated with chronic productive cough, ≥1 moderate or severe exacerbation in the previous 12 months, and who were former/current smokers (history of ≥10 pack-years) were eligible for enrollment. A post-bronchodilator FEV₁ ≤50% of predicted and an FEV₁/forced vital capacity (FVC) ratio <70% were required. Patients had to be receiving standard of care COPD treatment (LABA or LAMA or a combination of the two for at least 12 weeks). Patients were excluded if they had a COPD exacerbation ongoing at screening, a lower respiratory tract infection unresolved within 4 weeks prior to screening, asthma/other relevant lung disease, or known α1-antitrypsin deficiency (refer Supplementary materials for the full list of inclusion/exclusion criteria). ICS and theophylline were permitted if taken at a constant daily dose for 12 weeks prior. All patients involved in the OPTMIZE trial provided their written informed consent.

Study design and interventions

OPTIMIZE was a multicenter, double-blind, Phase III randomized trial conducted over 12 weeks, which included an initial 4-week up-titration period. All patients discontinuing the trial were offered the opportunity to enter an 8-week open-label down-titration phase, during which they received ROF 250 µg OD (Figure S1).

Patients were randomized (by a computerized interactive voice response system/interactive web response system) to one of three treatment regimens (1:1:1) (Figure S1): ROF 250 µg once daily (OD) for 4 weeks and then 500 µg OD thereafter (250 µg OD/500 µg OD), ROF 500 µg every other day (EOD) for 4 weeks and then 500 µg OD thereafter (500 µg EOD/500 µg OD) or ROF 500 µg OD for 12 weeks (500 µg OD). Patients continued receiving their usual maintenance therapy.

The first 4 weeks (up-titration) of the trial were double blinded, and the remaining 8 weeks (maintenance period) were single blinded, with only the sponsor and investigators aware that the patient was receiving ROF 500 µg OD. The original randomized treatment regimen remained blinded to all parties involved in the study for the duration of the study. ROF 250 and 500 µg and placebo were supplied as identical white, round, biplane tablets in wallet cards containing 20 tablets, with identical labeling and packaging.

Patients attended clinics at screening, randomization and Weeks 2, 4, 8 and 12. Those discontinuing and entering the down-titration phase also attended clinic on Weeks 2, 4 and 8 of the down-titration. Study medication was accounted for at each visit to assess compliance.

The study protocol was approved by each respective institutional review board and followed established good clinical practice guidelines. A list of all approving institutional review boards is available in Table S1. All patients gave written informed consent for this study.

Outcomes and end points

The primary end point was the percentage of patients prematurely discontinuing study treatment for any reason during the 12-week study period. Secondary end points included the percentage of patients with adverse events (AEs) of interest (diarrhea, nausea, headache, decreased appetite, insomnia and abdominal pain) during the trial, percentage of patients prematurely discontinuing study treatment for any reason during the down-titration phase, and change in pre-bronchodilator FEV₁ during both the trial and the down-titration phase. The six types of AEs of interest used to evaluate tolerability were selected as they are the most common AEs associated with ROF treatment, the main reason for treatment discontinuation, and assumed to be related to PDE4 inhibition.

Safety assessments included monitoring AEs and assessment of Columbia-Suicide Severity Rating Scale (C-SSRS), body weight, and body mass index (BMI). AEs of interest (occurrence and intensity) were assessed on a daily basis using diary cards. Intensity (mild/moderate/severe) was evaluated using a 7-point Likert scale.

Pharmacokinetic evaluations

Pharmacokinetics (PK) of ROF and ROF N-oxide were measured using 6 mL blood samples by Pharmaceutical Product Development (Middleton, WI, USA) using a high-performance liquid chromatography tandem mass spectrometer, as described previously.¹⁶

An integrated population PK (popPK) model was developed to predict individual ROF/ROF N-oxide exposure levels and total PDE4 inhibitory activity (tPDE4i) levels and assess whether patients unable to tolerate ROF 500 µg OD have drug exposure with 250 µg OD, similar to patients on a 500 µg OD dose. The integrated popPK model was developed from an earlier base model in which the structural parameters were fixed to estimates from a dataset of 21 Phase I and two Phase II/III studies.¹⁶ This base model used combined REACT/OPTIMIZE datasets.^7,17

Statistical analyses

A hierarchical testing approach was followed; if significance (5%) was not reached, subsequent tests were exploratory. The hierarchy of testing for the null hypothesis was first: if the percentage of patient discontinuations on ROF 250 µg OD/500 µg were not lower than or equal to that on ROF 500 µg OD by Week 12, then the percentage of patient discontinuations on ROF 500 µg EOD/500 µg OD were not lower than or equal to that on ROF 500 µg OD by Week 12 (refer Supplementary materials for full list).

The primary end point and secondary safety end points were based on the safety analysis set (SAS) and performed using a logistic regression model. For the primary end point and AEs of interest, the treatment odds ratio (OR) and relative risk (RR) between groups¹⁸ were calculated. The secondary efficacy end point, change in pre-bronchodilator FEV₁, was based on the full analysis set (FAS) and analyzed using an analysis of covariance model.

Additional post hoc exploratory analyses were undertaken to further assess whether weight loss on ROF was related to, 1) baseline BMI, and 2) gastrointestinal AEs and/or decreased appetite (no formal statistical testing performed).

For calculation of sample size, rates of discontinuation for any reason were estimated based on pooled data from the ROF COPD pivotal studies,^6,9 which included a similar patient population to the OPTIMIZE study. Assuming a discontinuation rate of 20% with ROF 500 µg OD and 13% with either up-titration regimen, a total of 441 patients per treatment arm, 1,323 overall, would provide 80% power to declare superiority of each of ROF 250 µg OD/500 µg OD and ROF 500 µg EOD/500 µg OD versus ROF 500 µg OD for 12 weeks.

Results

Patients

The study was conducted at 161 sites across 15 countries (refer Supplementary materials for full list) between April 2014 and October 2015. In total, 1,323 patients were randomized, of whom 1,321 received treatment. A total of 104 patients entered the down-titration phase (Figure 1). Data presented hereafter are for the 12-week trial population; data on the down-titration phase are included in the Supplementary materials.

Figure 1 Patient disposition.

Notes: ^aA pre-treatment event is defined as any untoward medical occurrence in a patient who had signed written informed consent to participate in a study, but prior to administration of any study medication; it did not necessarily have to have a causal relationship with study participation.
Abbreviations: EOD, every other day; LTFU, lost to follow-up; OD, once daily; ROF, roflumilast; 250, 250 µg; 500, 500 µg.

Baseline characteristics were generally balanced across the treatment arms (Table 1). Patients had a mean age of 64.6 years and were predominantly male (74.4%). Compliance with study medication ranged from 101% to 104% across treatment arms. Demographic and baseline characteristics of patients who entered the down-titration phase are presented in Table S2.

Table 1 Baseline patient characteristics

Characteristics	ROF 250 OD/ROF 500 OD (n=441)	ROF 500 EOD/ROF 500 OD (n=437)	ROF 500 OD (n=443)
Age, years	64.2 (7.8)	65.0 (8.2)	64.6 (8.4)
Male, n (%)	320 (72.6)	325 (74.4)	338 (76.3)
White, n (%)	405 (91.8)	399 (91.3)	405 (91.4)
BMI, kg/m^2	26.4 (6.0)	26.01 (5.6)	26.46 (5.9)
Cigarette pack years	38.1 (17.5)	40.2 (19.2)	37.6 (17.7)
Current smoker, n (%)	213 (48.3)	198 (45.3)	196 (44.2)
Pre-bronchodilator FEV1, L	1.0 (0.3)	1.0 (0.3)	1.0 (0.3)
Pre-bronchodilator FVC, L	2.3 (0.7)	2.3 (0.7)	2.3 (0.7)
% predicted FEV1	36.0 (8.8)	36.7 (8.8)	36.0 (9.5)
Post-bronchodilator FEV1/FVC	0.46 (0.1)	0.47 (0.1)	0.46 (0.1)
% FEV1 reversibility	7.1 (12.0)	6.45 (14.4)	7.4 (11.4)
≤2 exacerbations, n (%)	435 (98.6)	427 (97.7)	432 (97.5)
>2 exacerbations, n (%)	6 (1.4)	9 (2.1)	9 (2.0)
Most commonly reported concomitant medication, n (%)a	440 (99.8)	437 (100.0)	443 (100.0)
LAMA (tiotropium bromide)	245 (55.6)	235 (53.8)	225 (50.8)
ICS/LABA (seretide, budesonide)	202 (45.8)	197 (45.0)	217 (48.9)
Theophylline	80 (18.1)	85 (19.5)	80 (18.1)

Notes: Data are taken from the SAS and expressed as mean (SD) unless otherwise stated.

a Taken in ≥10% of all patients.

Abbreviations: BMI, body mass index; EOD, every other day; FEV₁, forced expiratory volume in 1 second; FVC, forced vital capacity; ICS, inhaled corticosteroid; LABA, long-acting beta agonist; LAMA, long-acting muscarinic antagonist; OD, once daily; ROF, roflumilast; SAS, safety analysis set; SD, standard deviation; 250, 250 µg; 500, 500 µg.

Study discontinuations

The greatest between-group difference in discontinuations occurred in the first few weeks of treatment (Figure 2A). Significantly fewer patients discontinued treatment (for any reason) in the ROF 250 µg OD/500 µg OD group compared with the ROF 500 µg OD group (18.4% versus 24.6%; RR 0.72 [95% CI 0.54–0.95], OR 0.66 [95% CI 0.47–0.93], p=0.017; Figure 2B). There were fewer treatment discontinuations in the ROF 500 µg EOD/500 µg OD group compared with the ROF 500 µg OD group, but this difference did not reach statistical significance (20.1% versus 24.6%; RR 0.81 [95% CI 0.62–1.05], OR 0.76 [95% CI 0.55–1.07], p=0.114; Figure 2). Based on the hierarchical testing approach, all interpretations of p-values after the second hierarchical test are exploratory.

Figure 2 (A) Probability of patients continuing the 12-week trial for any reason (SAS). (B) Percentage of patients discontinuing for any reason.

Abbreviations: CI, confidence interval; EOD, every other day; OD, once daily; OR, odds ratio; ROF, roflumilast; SAS, safety analysis set; 250, 250 µg; 500, 500 µg.

Tolerability

Significantly fewer patients experienced AEs of interest in the ROF 250 µg OD/500 µg OD arm compared with the ROF 500 µg OD arm (45.4% versus 54.2%; RR 0.79 [95% CI 0.66–0.91], OR 0.63 [95% CI 0.47–0.83], p=0.001; Figure 3). The frequency of all AEs of interest was lower, and the median time to onset was longer in the ROF 250 µg OD/500 µg OD arm compared with the ROF 500 µg OD arm (Table S3). The proportion of patients reporting AEs of interest was numerically lower in the ROF 500 µg EOD/500 µg OD arm compared with the 500 µg OD arm, but the difference was not significant (48.3% versus 54.2%; OR 0.78 [95% CI 0.59–1.04, p=0.091]); (Figure 3 and Table S3). The AEs of interest were predominantly mild or moderate (Table S4) and of short duration (2–4 days; data include discontinued patients; Table S3). For each treatment arm, among patients who discontinued, the most commonly reported AE of interest was diarrhea (19.8%, 31.8%, and 33%, in the ROF 250 µg OD/500 µg OD, 500 µg EOD/500 µg OD and the 500 µg OD arms respectively; Table S5).

Figure 3 Summary of AEs of interest.

Note: Percentage of patients with ≥1 AE to evaluate tolerability.
Abbreviations: AE, adverse event; CI, confidence interval; EOD, every other day; OD, once daily; OR, odds ratio; ROF, roflumilast; 250, 250 µg; 500, 500 µg.

The percentage of patients who withdrew from treatment due to AEs was 13.2%, 15.3%, and 17.4% with ROF 250 µg OD/500 µg OD, 500 µg EOD/500 µg OD, and 500 µg OD, respectively. AEs that most commonly led to discontinuation in the ROF 250 µg OD/500 µg OD arm, 500 µg EOD/500 µg OD arm, and 500 µg OD arm, were diarrhea (3.6%, 6.4%, and 8.1% of patients, respectively), decreased appetite (3.6%, 4.6%, and 7.4% of patients, respectively), and nausea (3.9%, 3.7%, 6.1% of patients, respectively).

Overall, 63.7% of patients experienced any AE: 61.2%, 64.3%, and 65.7% with ROF 250 µg OD/500 µg OD, 500 µg EOD/500 µg OD, and 500 µg OD, respectively. The most frequently reported AEs were those assessed as AEs of interest. During the trial, 4.6% of patients experienced a serious AE and six deaths were reported (three in the 250 µg OD/500 µg OD arm [COPD, cardiac failure, and cardiopulmonary failure], one in the 500 µg EOD/500 µg OD arm [pneumothorax spontaneous], and two in the 500 µg OD arm [lung adenocarcinoma and myocardial infarction]). Suicidal ideation was reported in one patient in the ROF 500 µg OD group during the trial, and this patient discontinued treatment as a result.

Weight decrease was self-reported by 2.3%, 2.1%, and 3.8% of patients who received 250 µg OD/500 µg OD, 500 µg EOD/500 µg OD, and 500 µg OD, respectively. Reduction in body weight was evident from Week 2 and was of a similar magnitude across treatment groups (mean decrease 1.02, 0.82, and 0.98 kg, respectively; Figure 4). In post hoc analyses, weight loss tended to be greater in patients with a BMI >25 kg/m² compared with those with a BMI ≤25 kg/m² in all treatment groups (Table S6).

Figure 4 Mean change in body weight.

Notes: Measurements are mean, with bars showing SD. Vend was the last measurement obtained before dropout/study completion.
Abbreviations: EOD, every other day; OD, once daily; ROF, roflumilast; SD, standard deviation; 250, 250 µg; 500, 500 µg.

Lung function

Improvements from baseline in pre-bronchodilator FEV₁ over the trial were minimally different between ROF 250 µg OD/500 µg OD, 500 µg EOD/500 µg OD, and 500 µg OD treatment groups (least squares [LS] mean change 90, 130, and 110 mL, respectively).

Pharmacokinetics

Individual PK parameters and tPDE4i values were derived for 1,238 patients with at least one quantifiable PK sample,¹⁷ including 101 patients who discontinued the 12-week trial and entered the down-titration phase, of whom 76 entered after not tolerating at least one dose of ROF 500 µg. Patients who discontinued ROF 500 µg OD in the trial because of AEs of interest had a slightly higher median tPDE4i (>10%) than those able to tolerate this dose (median tPDE4i level: 1.28 and 1.16, respectively; Figure 5). However, as expected with linear PK, reducing the dose to 250 µg OD in these patients reduced tPDE4i to below that typically observed in patients able to tolerate the 500 µg OD (median tPDE4i level: 0.65).

Figure 5 Comparison of tPDE4i levels achieved with ROF 500 µg or 250 µg according to whether patients were able to tolerate the dose.

Notes: Medians in trial and down-titration phase. ^aFor consistency with previous popPK models, the list of preferred terms included in the AEs of interest for the popPK model is larger than that used to investigate safety in this study (Table S7). Error bars are 95% CI.
Abbreviations: AE, adverse event; CI, confidence interval; OD, once daily; popPK, population pharmacokinetics; ROF, roflumilast; tPDE4i, total phosphodiesterase-4 inhibitory activity; 250, 250 µg; 500, 500 µg.

Discussion

Although the side effects that may occur soon after initiation of ROF are often transient in nature and predominantly mild to moderate in severity, they are a common reason for discontinuing treatment. Using an alternative reduced dosing regimen for a short initial treatment period (as used successfully with other systemic therapies)^19–22 is one strategy to help increase the acceptability of ROF treatment and help patients stay on therapy. The OPTIMIZE study supports this concept. While use of a reduced dose of ROF as long-term maintenance therapy may not induce sufficient PDE4 inhibition to exert the clinical efficacy of the 500 µg dose,^14,15 it can be used as part of an up-titration regimen to overcome tolerability issues in the first weeks of treatment and hence reduce discontinuation rates.

Initiating ROF at a 250 µg daily dose for 4 weeks, before escalating to 500 µg daily dose for 8 weeks, was associated with a statistically significant decrease in the percentage of patients discontinuing treatment for any reason and reporting side effects of interest. The overall discontinuation rate for patients taking ROF 500 µg daily in the current study was in line with that observed in recent ROF clinical trials,^7,11 and for patients starting at the reduced dosing of 250 µg daily, the odds of early discontinuation and experiencing side effects of interest were 34% and 37% lower (RR reduction 28% and 21%). Patients starting ROF at 500 µg on alternate days also reported fewer side effects and lower treatment discontinuation rates, but this was not significantly different compared with the 500 µg daily regimen.

The AEs of interest selected as a focus for OPTIMIZE study have previously been identified as limiting tolerability to ROF.^4,6,9 Diarrhea and other gastrointestinal side effects particularly, have been perceived as a barrier to ROF treatment. Diarrhea accounted for approximately one-third of discontinuations with the 500 µg dose, and this was lowered to approximately 20% with reduced dosing.

The mechanisms by which ROF causes nausea and diarrhea are believed to be distinct. Nausea is mediated by PDE4-D; located outside the blood–brain barrier, this subtype is accessible to ROF.²³ The mechanism behind diarrhea is less clear; activators of the cystic fibrosis transmembrane conductance regulator (CFTR) are known to be potent inducers of diarrhea, and it is thought that PDE4 inhibition could activate this mechanism.^24,25

Weight loss is a known systemic side effect of ROF^6,9 and has been reported with both selective and nonselective PDE inhibitors.²⁶ However, it did not appear to be a significant reason for discontinuation in OPTIMIZE, accounting for <1% of discontinuations overall. Reductions in body weight were similar between all three dosing regimens and comparable with previous studies when treatment length is taken into account.^6,9 Absolute weight loss tended to be more pronounced in patients with a higher baseline BMI and in those who also experienced gastrointestinal side effects or loss of appetite with ROF (as seen previously).⁶ While the mechanism by which ROF causes weight decrease remains to be fully elucidated, it is thought to be related to the effects of increased cAMP on signaling pathways regulating lipolysis.¹⁵

Frequency of individual side effects of interest was always lowest in the 250 µg/500 µg OD group followed by the 500 µg EOD/500 µg OD group and then the 500 µg OD group. One exception was abdominal pain; the reason for this was unclear. Frequencies of some side effects of interest were higher in this study than those reported in previous studies;^7,11 one explanation for this finding may be that OPTIMIZE, in contrast to previous studies, used a daily patient-assessed diary method to record side effects of interest. As OPTIMIZE did not include a placebo arm, the impact of the use of daily diary cards on side effect rates cannot be assessed. Additionally, levels of theophylline were not known in the 80 patients who were taking it, but may have contributed to increased reporting of side effects in these patients.

The 250 µg daily dose was selected as the appropriate reduced dose following modeling studies, suggesting an improved side effect profile, compared with the 500 µg maintenance dose.¹³ Lung function measurements in OPTIMIZE revealed that the initial 4-week up-titration regimens did not appear to reduce the effect of the drug on lung function. FEV₁ improvements of ~100 mL in all treatment arms were observed; this improvement is at the upper range of changes compared with previous studies.^6,7,9,11

Following oral dosing, ROF is rapidly converted by cytochrome P450 enzymes to its active metabolite ROF N-oxide, which contributes to ~90% of the tPDE4i activity.^27,28 ROF N-oxide is primarily cleared by the enzyme CYP3A4, and a number of covariates can affect the activity.^29,30 PK analyses found that patients who discontinued ROF 500 µg daily in the main 12-week trial of OPTIMIZE because of side effects of interest had a slightly higher median tPDE4i than those able to tolerate this dose. It is plausible that higher tPDE4i levels lead to more potential off-target effects of ROF such as nausea and diarrhea. However, as expected with linear PK, reducing the dose to 250 µg daily in these patients reduced tPDE4i to well below that typically observed in patients able to tolerate 500 µg daily. However, a daily dose of 250 µg should not be considered suitable as a therapeutic maintenance dose, as efficacy in exacerbation reduction has not been adequately demonstrated in clinical studies.

A recent Korean study retrospectively analyzed data from 85 patients with severe/very severe COPD taking either 500 µg or 250 µg ROF daily, up-titrated to 500 µg daily up to 3 months after. There was a trend toward fewer AEs and discontinuations with the reduced initial dose.³¹ Similarly, a recent PK modeling analysis¹³ predicted that ROF 250 µg daily and 500 µg on alternate days were associated with lower plasma drug concentrations, lower tPDE4i, and lower incidence of diarrhea, nausea, and headache compared with ROF 500 µg daily. These data support the findings of the OPTIMIZE study.

Limitations of the current study include the lack of a placebo arm, the low sample size in the down-titration phase, and a short study duration of 12 weeks compared with a long-term maintenance treatment. Nonetheless, the study population is one of the largest to investigate side effects in a targeted COPD population, and gives us confidence in the validity of our conclusions.

Conclusion

Starting ROF treatment at 250 µg daily for 4 weeks before increasing to the therapeutic maintenance dose of 500 µg daily reduced treatment discontinuations and improved the tolerability profile compared with initiating treatment at 500 µg daily. In practice, this should help patients with COPD to stay longer on treatment with the therapeutic dose. However, use of 250 µg OD as long-term maintenance therapy may not induce sufficient PDE4 inhibition to exert clinical efficacy.

Acknowledgments

Ken Nip (Takeda) provided additional statistical assistance, and Udo-Michael Goehring provided study interpretation. Ella Palmer, PhD (Synergy Vision, London, UK, supported by AstraZeneca) provided writing and editorial assistance with the preparation of this manuscript, in accordance with Good Publication Practice (GPP3) guidelines (http://www.ismpp.org/gpp3). This study was funded by Takeda Pharmaceutical Company and AstraZeneca. Data from the OPTIMIZE study were presented as an abstract (PA308) at the European Respiratory Society International Congress, 3–7 September 2016, London, UK. Additionally, the pharmacokinetic and pharmacodynamics data from this study were presented as an abstract (A1337) at the American Thoracic Society 2017 International Conference, 19–14 May 2017, Washington DC, USA.

Disclosure

NB was employed by Takeda Development Centre Europe Ltd, London, UK. The authors report no other conflicts of interest in this work.