Cost-effectiveness analysis of umeclidinium bromide/vilanterol 62.5/25 mcg versus tiotropium/olodaterol 5/5 mcg in symptomatic patients with chronic obstructive pulmonary disease: a Spanish National Healthcare System perspective

Chronic obstructive pulmonary disease (COPD) is a disabling respiratory disease characterized by airflow limitation and persistent breathing difficulties [1]. COPD is associated with a high clinical and economic burden worldwide, impacting the patient’s quality of life and causing significant costs, associated with clinical care [1]. In Spain, the prevalence of COPD in patients aged 40–80 years old is approximately 10.2% and prevalence is higher in men compared with women (15.1% versus 5.6%, respectively) [2]. Geographic variations in prevalence range from 6.2–16.9% [3]. The annual cost of COPD in Spain was estimated at €239 million in 1997 and €507 million in 2000 [4, 5].

Pharmacological treatment for COPD aims to improve patient symptoms and reduce the risk of exacerbation [1]. The cornerstone of pharmacological therapy for COPD is bronchodilation with a long-acting muscarinic antagonist (LAMA), a long-acting β₂-agonist (LABA), or a LAMA/LABA combination either as initial therapy or escalation from monotherapy, depending on the severity of breathlessness and the patient’s risk of exacerbations [1, 6‐8]. The Global Initiative for Chronic Obstructive Lung Disease (GOLD) 2018 report recommends dual LAMA/LABA therapy for patients initially on monotherapy who continue to experience exacerbations or patients with severe or persistent breathlessness [1].

The Spanish guidelines for pharmacological treatment of stable COPD (Guía española de la enfermedad pulmonar obstructiva crónica, GesEPOC) [9] include a number of GOLD principles and recommendations; however, GesEPOC follows an alternative suite of phenotype-based recommendations for the evaluation and treatment of COPD [9]. GesEPOC proposes four phenotypes that determine differential treatment: non-exacerbators; mixed COPD-asthma; exacerbators with emphysema; and exacerbators with chronic bronchitis [10]. Within this framework, dual LAMA/LABA therapy is recommended in non-exacerbators who remain symptomatic after bronchodilator monotherapy, and in patients with emphysema or chronic bronchitis at risk of exacerbations [10].

Various LAMA/LABA combinations are currently available in Spain. Umeclidinium/vilanterol 62.5/25 mcg (UMEC/VI) is a once-daily single inhaler LAMA/LABA therapy, approved for the treatment of COPD by the European Medicines Agency (EMA) in 2014 [11]. The safety and efficacy of UMEC/VI has been extensively investigated and studies have shown improvements in lung function with UMEC/VI compared with placebo [12, 13], UMEC or VI monotherapy [12, 14, 15], tiotropium (TIO) [14, 16, 17] and inhaled corticosteroid (ICS)/LABA combination therapy [18, 19]. TIO/olodaterol (TIO/OLO) was first approved as treatment for patients with COPD in 2015 [20]. A recent systematic literature review demonstrated that treatment with TIO/OLO provides significant improvement in lung function when compared with TIO and OLO monotherapies and when compared with ICS/LABA combination therapy [21].

Until recently, no direct comparison between once-daily LAMA/LABA combination therapies had been conducted, although indirect comparisons of double blind trials highlighted potential for efficacy differences within the LAMA/LABA treatment class in favor of UMEC/VI [22, 23]. A 12-week head-to-head study of UMEC and TIO monotherapies demonstrated that UMEC was superior to TIO in trough forced expiratory volume in 1 s (FEV₁), with a treatment difference of 59 mL (95% confidence interval [CI]:29, 88 mL) [24], and a recent open-label, 8-week crossover head-to-head study demonstrated that this superiority was maintained when UMEC and TIO were administered as part of a LAMA/LABA dual therapy [25]. This LAMA/LABA head-to-head study, UMEC/VI 62.5/25 mcg was compared with TIO/OLO 5/5 mcg in symptomatic patients with moderate COPD who were naïve to ICS at study entry [25]. The study showed that UMEC/VI was superior to TIO/OLO in the intent-to-treat population for FEV₁ improvement at 8 weeks with a treatment difference of 52 mL (95% CI: 28, 77 mL) [25].

UMEC/VI has already been shown to be cost effective when compared with TIO alone from a Spanish National Healthcare System perspective [26]. Following the completion of the head-to-head study comparing UMEC/VI and TIO/OLO, this study aimed to assess the cost effectiveness of UMEC/VI versus TIO/OLO from a Spanish National Healthcare System perspective [25]. Given that the annual drug acquisition costs for UMEC/VI are lower than TIO/OLO in Spain, it was anticipated that this analysis would find that UMEC/VI dominated TIO/OLO (as a more effective and less expensive treatment). However, testing this hypothesis through sensitivity analyses is important to demonstrate the robustness of this assumption and to adequately inform healthcare decision makers.

In the base case analysis, UMEC/VI was associated with fewer exacerbations (− 0.014 per year) and improvements in survival (+ 0.004 LYs) and quality of life (+ 0.029 QALYs) over a 3-year time horizon, when compared with TIO/OLO. Treatment with UMEC/VI also resulted in a cost saving of €393 per patient (Table 4).

The results of the ITT scenario analysis were consistent with the base case, showing that UMEC/VI was associated with fewer exacerbations (− 0.014 per year) and improvements in survival (+ 0.003 LYs) and quality of life (+ 0.009 QALY) over a 3-year time horizon, when compared with TIO/OLO, alongside cost savings of €396 per patient (Table 5).

The results of sensitivity analyses are presented in Table 6, looking at the impact of the time horizon, discount rates, patient population and utility estimation, treatment effect, discontinuation, subsequent treatment, and costings on the model outcomes. UMEC/VI was found to be dominant (better outcomes and reduced costs) compared with TIO/OLO in all analyses, with the exception of one analysis (equal FEV₁ absolute treatment effect in both arms [128 mL]), whereby UMEC/VI was considered equally effective but less expensive (Table 6). A sensitivity analysis conducted on the price of TIO/OLO found that UMEC/VI was cost effective at a willingness-to-pay threshold of €30,000/QALY until the price of TIO/OLO fell to €39.66 (51% reduction from its current list price at €81.49).

The probabilistic sensitivity analyses showed UMEC/VI to be more effective and less expensive than TIO/OLO in 100% of the simulations in the cost-effectiveness scatter plot, in both the base case and ITT scenario analysis (Fig. 1). In the base case PSA, mean costs (95% CI) for UMEC/VI and TIO/OLO were €5660 (€5000, €6410) and €6060 (€5380, €6830), respectively. Mean QALYs (95% CI) were 2.15 (2.08, 2.21) and 2.12 (2.05, 2.18) for UMEC/VI and TIO/OLO, respectively. In the ITT scenario PSA, mean costs (95% CI) for UMEC/VI and TIO/OLO were €5740 (€5060, €6490) and €6140 (€5460, €6910), respectively. Mean QALYs (95% CI) were 2.06 (1.98, 2.13) and 2.05 (1.97, 2.12) for UMEC/VI and TIO/OLO, respectively.

This study aimed to assess the cost effectiveness of UMEC/VI versus TIO/OLO from a Spanish National Healthcare System perspective. The results of this analysis with a Spanish population as base case, demonstrated that UMEC/VI dominated TIO/OLO, providing gains in LYs and QALYs (+ 0.004 and + 0.029, respectively) alongside total cost savings of €393 per patient over 3 years. Drug costs were the main driver of the total costs savings, followed by non-drug costs, specifically costs associated with exacerbation events. The model also showed small numerical reductions in total exacerbation rates (− 0.014 exacerbations per year) with UMEC/VI compared with TIO/OLO. The results within the ITT scenario analysis using the UMEC/VI versus TIO/OLO head-to-head study population were consistent with the base case, with UMEC/VI shown to be more effective than TIO/OLO and at a lower cost. The dominance of UMEC/VI over TIO/OLO demonstrated in both the base case and the ITT scenario analyses were maintained when a 5- and 10-year time horizon was employed, and across several sensitivity analyses. The results of the ITT utility estimation scenario analysis are particularly relevant when considering the cost effectiveness of UMEC/VI versus TIO/OLO outside of the Spanish National Healthcare System perspective. Two sensitivity analyses were conducted using the ITT population from the UMEC/VI versus TIO/OLO head-to-head study [25], with a utility estimation based on the GALAXY utility algorithm [28, 29], which converted SGRQ scores to utilities according to the algorithm of Starkie et al. [44]. Both analyses, one of which was over a 3-year period and one of which used a lifetime time horizon, demonstrated that UMEC/VI dominated TIO/OLO as the more effective and less expensive treatment. While these sensitivity analyses used Spanish costs, they would nevertheless provide the most applicable platform by which to estimate the cost effectiveness of UMEC/VI versus TIO/OLO from other national perspectives, using nationally derived cost inputs.

Although UMEC/VI was statistically superior to TIO/OLO in terms of trough FEV₁ improvement [25], a sensitivity analysis considered the possibility of equal FEV₁ benefit for both treatments; in this scenario, UMEC/VI was a cost-saving treatment option compared with TIO/OLO (as UMEC/VI has a lower acquisition cost). The sensitivity analyses also demonstrated that UMEC/VI QALY gains increased with the time horizon, from 0.029 QALYs in the 3-year time horizon used for the base case analysis to 0.091 QALYs in the lifetime horizon. These are relatively low QALY gains, however it should be noted that 95% of the population used within the base case had a low exacerbation risk (GOLD stage B) and high symptom burden (100% of patients had an mMRC score ≥ 2) and only 5% were classified as having a high exacerbation risk (GOLD stage D) [25]. Given the sensitivity of the model to exacerbations, this may account for the relatively low QALY gains observed.

Given that UMEC/VI has demonstrated improved efficacy when compared with TIO/OLO [25], and that UMEC/VI is less expensive than TIO/OLO in Spain, it was anticipated that this analysis would find that UMEC/VI dominated TIO/OLO as a more effective and less expensive treatment. Nevertheless, it was considered important to challenge this hypothesis using both a Spanish population as base case, and a more generalized population within a scenario analysis, in order to demonstrate the robustness of the data supporting the cost effectiveness of UMEC/VI versus TIO/OLO. While this cost effectiveness was performed from a Spanish National Healthcare System perspective, its results are generalizable to other countries, as indicated by the ITT scenario analysis, especially in relation to the health gains observed (costs are more likely to vary according to each country).

In the base case results, patients gained more QALYs than LYs, indicating that the treatment effect of UMEC/VI on FEV₁ benefit was associated with improvement in quality of life, but little to no reduction in mortality, which is likely the result of modeling treatment effect based on FEV₁ benefit. These results are consistent with previous studies of UMEC/VI and with systematic reviews and meta-analyses of other therapies, which have found that FEV₁ benefit is associated with improvement in quality of life, but little to no reduction in mortality [12, 16, 45, 46]. A similar result was observed within the ITT scenario analysis; however, the magnitude of benefit was lower in this population compared with the base case, possibly due to the different approaches to utility estimation used within the base case and ITT analyses. The Spanish utility equation used within the base case, and the SGRQ-C equation used within the ITT analysis considered different variables and would therefore be sensitive to different parameters. In addition, the populations used within each equation would lead to different estimates of utility.

This study is the first to compare two LAMA/LABA dual therapies using direct head-to-head data from a randomized, 12-week study [24], which is the most reliable set of data to include within a cost-effectiveness model [24]. Other studies have compared LAMA/LABA dual therapy using models with assumptions based on network meta-analyses [47, 48], or have used head-to-head data to compare UMEC/VI with TIO monotherapy [26, 49]. For example, a UK cost-effectiveness analysis of TIO/OLO found that costs and QALYs associated with TIO/OLO were equal to those of UMEC/VI and IND/GLY. However, this study was based on indirect data from a network meta-analysis and assumed equal efficacy and equal acquisition costs for LAMA/LABA comparators [48]. Similarly, a cost-effectiveness analysis conducted in Spain used efficacy inputs derived from a meta-analysis and found that aclidinium/formoterol (ACL/FF) 400/12 mcg provided the same health benefits as TIO/OLO in terms of LYs (4.073) and QALYs (2.928), but that ACL/FF was associated with lower costs (−€332) over a 5-year time horizon [47]. An additional cost-effectiveness analysis conducted in the US found UMEC/VI to be equally effective but less costly compared with open dual LAMA/LABA combination, with efficacy inputs derived from two clinical studies [14, 16, 49].

Several cost-effectiveness analyses have been conducted from a Spanish National Healthcare System perspective, using direct head-to-head data. One study compared UMEC and TIO [50], using direct head-to-head data from a 12-week study whereby in which UMEC was found to be superior to TIO for trough FEV₁ in the ITT population (treatment difference: 53 mL, 95% CI: 25, 81 mL; p < 0.001) [24]. Results from this cost-effectiveness analysis using direct head-to-head data from the UMEC and TIO study showed results comparable to our study, whereby UMEC dominated TIO, gaining similar 0.014 QALYs and demonstrating cost savings of €192 [50]. Another Spanish cost-effectiveness analysis of UMEC/VI versus TIO alone estimated 3-year costs of €6215 and QALYs of 2.025 for patients treated with UMEC/VI and found UMEC/VI to be more effective and costlier than TIO monotherapy, with an incremental cost-effectiveness ratio (ICER) of €21,475/QALY [26]. The higher QALYs and lower costs for UMEC/VI in our base case analysis reflect the patient population characteristics at baseline. The Spanish population in our analysis had fewer current smokers, was less obese, had a lower cardiovascular disease comorbidity, experienced fewer exacerbations and had a higher FEV₁% predicted at baseline compared with the population in the Spanish cost-effectiveness analysis of UMEC/VI versus TIO [26].

The cost effectiveness analysis presented here could be a conservative estimate, as some medical costs such as costs associated with inhaler misuse, were not taken into account within the model [51, 52]. Poor inhalation technique can lead to poor disease control and the costs associated with critical errors are considerable [51, 52]. In Spain, total costs associated with poor inhalation technique were estimated at €155 million in 2015, representing 15.5% of the total costs associated with unscheduled healthcare visits [51]. A recent study compared the Ellipta device with other commonly used inhaler devices, and the results demonstrated that fewer patients had at least one critical error using the Ellipta device compared with five alternative inhalers [53]. In addition, the Ellipta inhaler received more positive patient feedback in terms of ease of use in the UMEC/VI versus TIO/OLO head-to-head study, compared with the Respimat inhaler [25]. Inhaler training was provided in the UMEC/VI versus TIO/OLO head-to-head study, and inhaler technique was routinely checked, thus reiterating how the results of this cost-effectiveness analysis are likely to be a conservative estimate of treatment difference, as they do not fully reflect the development of poor technique over time and variation in inhaler training seen in a real-world setting.

The results of this study are based on data from the 8-week UMEC/VI versus TIO/OLO head-to-head study [25]. Future studies to confirm the results observed within this direct treatment comparison, and to compare the cost effectiveness of LAMA/LABA dual therapies over a longer duration, would be beneficial in further helping payers make informed judgements on the cost effectiveness of LAMA/LABA therapies.

As there are currently no clinical studies providing data on the use of LAMA/LABA combination therapy for a longer duration than the timeframes considered within this analysis (3 years, 5 years, 10 years and lifetime), certain assumptions were made within this model. One such assumption was that treatment effects began at the outset of the analysis (month 0) in both arms. This assumption is supported by data from studies that demonstrated observable, significant improvement in FEV₁ from the first dose [12, 40]. The model also assumed that treatment effect remained constant for the duration of the study, as long as patients remained on treatment. Treatment effect differences between UMEC/VI and TIO/OLO may be driven by the differences seen between the LAMA components UMEC and TIO. A randomized, blinded, 12-week parallel group study demonstrated superiority of UMEC over TIO on the primary endpoint of trough FEV₁ [24], and the Understanding Potential Long-Term Impacts on Function with Tiotropium (UPLIFT) study showed that LAMA treatment effects on FEV₁ and health status do not wane over time (at least up to 4 years) [54]. This was shown in both the overall population [54] and the subgroup of patients with GOLD stage II COPD [41], as included in the analysis presented here. An additional study demonstrated significant improvement in FEV₁ for patients treated with UMEC/VI, and this treatment benefit was maintained over 6 months [12]. Based on these previous studies, it was therefore reasonable to assume that the differential treatment effect seen between UMEC/VI and TIO/OLO would be maintained over a 3-year time period [24, 54].

Discontinuation rates used within the base case were based on data from the UPLIFT study [41], as it provides data over a 4-year follow-up, and this approach was validated by Spanish clinical experts [41]. Nevertheless, a sensitivity analysis was conducted using 50% discontinuation rates sourced from an observational study in Catalonia [55], and UMEC/VI remained dominant compared with TIO/OLO. Data on escalation to triple therapy from LAMA/LABA therapy are also not available from previous clinical studies, therefore it was necessary to make an assumption regarding the changes in FEV₁ once a patient escalated to subsequent triple therapy (LAMA/LABA+ICS). The base case assumed that patients would escalate to the same triple therapy regimen, and that FEV₁ treatment effect once on triple therapy would be the same between arms. This may have been a conservative assumption as it assumed that patients treated with UMEC/VI did not experience a change in FEV₁ after they initiated ICS therapy. Indeed, this assumption was tested in a sensitivity analysis and an increase in QALY gains of 0.004 versus the base case was observed. Finally, data on baseline fibrinogen concentration and 6MWT distances were not available from the sources used for this analysis and had to be estimated within the model. It may be informative to collect and include such data within future studies to assist further cost-effectiveness evaluations.

This analysis has shown UMEC/VI to be both more effective and less expensive than TIO/OLO for patients with symptomatic COPD in Spain, providing small additional gains in LY (0.004) and QALY (0.029), as well as a cost saving of €393 per patient over a 3-year time period. Scenario and sensitivity analyses demonstrated results consistent with the base case. These data may aid payers in making judgements on which LAMA/LABA treatments can be considered cost effective in a Spanish setting.