Abstract
To characterize the use of olodaterol and indacaterol in clinical practice and to quantify the off-label use in asthma. Drug utilization study of new users of olodaterol or indacaterol between 2014 and 2017 in the PHARMO Database Network in the Netherlands, the Danish population registers, and the IMS Real-World Evidence Longitudinal Patient Database panels in France. On-label use was defined as use among adults with a recorded diagnosis of COPD. Off-label use was defined as use among adults with a recorded diagnosis of asthma without a recorded diagnosis of COPD or as use among patients aged ≤18 years. Potential off-label use was defined as no recorded diagnosis of either COPD or asthma. The study included 4,158 new users of olodaterol and 9,966 new users of indacaterol. Prevalence of off-label use ranged from 3.5% for both drugs to 12.4% for olodaterol and 11.9% for indacaterol. Prevalence of on-label use ranged from 47.8% to 77.7% for olodaterol and from 28.7% to 70.1% for indacaterol. The remaining new users of olodaterol and indacaterol were classified as potential off-label users, with prevalence ranging from 17.3% to 48.6% for olodaterol and from 20.5% to 66.6% for indacaterol. This study provides no evidence of a major concern in Europe for olodaterol or indacaterol for off-label use in asthma or for pediatric use.
Introduction
Chronic obstructive pulmonary disease (COPD) affects 174 million people worldwide1. It is a characterized by persistent airflow limitation that is due to airway and/or alveolar abnormalities usually caused by significant exposure to noxious particles or gases including smoking2. Four inhaled long-acting beta2-agonists (LABAs) (salmeterol, formoterol, indacaterol, and olodaterol) are approved for long-term maintenance treatment in patients with COPD. Salmeterol and formoterol are also approved for use in asthma. Olodaterol was first approved in the countries of the European Union since 2013 and is indicated as a maintenance bronchodilator treatment to relieve symptoms in adult patients with COPD3. The use of LABAs as monotherapy in asthma without COPD, without a primary anti-inflammatory controller medication, e.g., an inhaled glucocorticosteroid (ICS), has been associated with increased morbidity and mortality4,5. There were no such concerns if the patient has COPD and concomitant asthma, an overlap of asthma and COPD, or COPD alone. Therefore, the health authorities of the European Union (EU)/European Economic Area Member States requested the conduct of a post-approval drug utilization study to characterize the use of olodaterol in clinical practice and assess the potential off-label use of olodaterol in asthma (see study protocol at EU PAS Register # EUPAS 17386)6. The main objectives of the study were to describe the baseline characteristics of patients initiating on olodaterol and to quantify off-label use of olodaterol to treat asthma in three countries in Europe. To provide a meanin gful context for the results, we also describe characteristics and off-label use of indacaterol, the other LABA not indicated to treat asthma.
Methods
Study design
We conducted a multinational, cross-sectional drug utilization study using information routinely collected in health care databases of new users of olodaterol or indacaterol. The study was conducted using health care databases in three countries: the PHARMO Database Network in the Netherlands (PHARMO overall and PHARMO General Practitioner [GP]) (www.pharmo.com)7, the Danish population registers in Denmark8,9,10,11, and the IMS Health Information Solutions Real-World Evidence Longi tudinal Patient Database (IMS RWE LPD) (GP panel and pulmonologist panel) in France12. Characteristics of the health care databases are described in Supplemental Table 1. Briefly, PHARMO overall includes electronic medical records (EMRs), of hospitalizations and outpatient pharmacy dispensings for more than 4 million residents of a well-defined population in the Netherlands (approximately 25% of that country’s population) for an average of 10 years. The PHARMO-GP is a 25% subset of the PHARMO overall that also includes EMRs from GPs. The Danish population registers used in this study were the Danish National Patient Register9, an administrative registry tracking hospitalizations and outpatient hospital visits, and the Danish National Health Services Prescription Database, which includes data on dispensings from outpatient pharmacies10. The IMS RWE LPD panels include EMRs from routine clinical practice from a subset of GPs (GP panel) and pulmonologist (Pulmonologist panel) in France. The study period started on the date of olodaterol launch in each country and ended on the latest date the data were available at the time of each final data extraction. The study periods included in the final data extraction for each data source were from March 1, 2014, to December 31, 2016, in PHARMO and the Danish population registers and from October 1, 2015, to November 30, 2017, in the IMS RWE LPD panels. The time periods vary by data source due to time lag in availability of data to researchers. The study was carried out in accordance with relevant guidelines and regulations. The study protocol was approved by the Institutional Review Board (IRB) and by the scientific and ethic committees required by each database. The need for informed consent was waived by the IRB.
Study population
Patients were included in the study if they fulfilled all the following criteria: (1) received a first prescription/dispensing for single-agent formulations of olodaterol or indacaterol during the study period (new users, with no prescriptions/dispensings ever before) and (2) had at least 12 months of continuous enrolment in the study health care databases preceding the index date, i.e., the date of the first prescription/dispensing for olodaterol or indacaterol. Because the study aimed to assess the use of olodaterol and indacaterol in regular clinical practice, no exclusions regarding age, sex, or comorbidity were defined. However, individuals with missing or implausible (e.g., age over 120 years) values for age or sex were excluded.
On-label, off-label, and potential off-label definitions
Patients were classified in three mutually exclusive groups according to their indication. On-label users were defined as patients aged 18 years or older with a recorded diagnosis of chronic bronchitis, emphysema, or “other COPD” (a recorded diagnosis of COPD without specifying chronic bronchitis or emphysema) at any time before the index date or up to 30 days after the index date. A time window of 30 days after index date was used to allow for a diagnosis to be recorded in the data sources when prescriptions/dispensings may be done by another physician13. Because COPD can occur in association with asthma, patients aged 18 years or older with a recorded diagnosis for both COPD and asthma were also considered on-label14,15,16. Off-label users were defined as patients aged 17 years or younger or patients aged 18 years or older with a recorded diagnosis of asthma in the absence of a recorded diagnosis for COPD at any time before or up to 30 days after the index date (see codes used to define COPD and asthma in Supplemental Table 2). Potential off-label users were defined as the remaining patients aged 18 years or older with no diagnosis of COPD and no diagnosis of asthma recorded at any time before or up to 30 days after the index date. An alternative definition of COPD (i.e., probable COPD) was applied to identify patients who likely had true COPD but for whom no recorded diagnosis was found in the available data source. Probable COPD was defined as the subset of potential off-label users that had at least two prescriptions/dispensings for a LABA, long-acting muscarinic antagonist (LAMA), or ICS (or combinations) after the age of 40 years but not before17,18. Review of a sample of 100 patient profiles, i.e. EMRs in chronological order, per drug in each data source was performed to confirm the appropriate performance of the algorithm to identify COPD and asthma, that no codes had been missed, and that the appropriate time windows were being used.
Patient characteristics
New users of olodaterol and new users of indacaterol were characterized at the index date according to demographic variables (age and sex), lifestyle characteristics as available in each data source (Supplemental Table 3) (smoking, obesity, and alcohol consumption), respiratory and nonrespiratory comorbidities, comedications, and COPD severity. Covariates were ascertained based on all information available before the index date, except for comedications and COPD severity that were ascertained up to one year before index date.
Severity of COPD was evaluated among new users of olodaterol or of indacaterol who had a recorded diagnosis of COPD and were aged 40 years or older before the index date. Severity of COPD was evaluated only in the Netherlands and in Denmark and was not evaluable in France due to lack of information on hospitalization. In this study, severity of COPD was defined using a modified version of the algorithm developed by Verhamme, et al.19 and considering the updated recommendations by the Global Initiative for Chronic Obstructive Lung Disease (GOLD)2. Severity of COPD was determined based on information on intermittent versus regular bronchodilator medications use, exacerbations with and without hospitalizations, presence of emphysema, and use of nebulizer and oxygen therapy in the last 12 months prior to the index date (see criteria in Supplemental Table 4).
Statistical analysis
The main analysis estimated the prevalence of off-label use among new users of olodaterol and indacaterol during the overall study period in each data source. Data describing the medical history and comedications of the study population are presented as counts, percentages, medians, and interquartile ranges, as appropriate. All data sources followed a common protocol and analysis plan. Data extraction, cohort selection, variable manipulation, and analysis were performed using SAS version 9.2 or higher.
Ethical approval
All procedures performed in studies involving human participants were in accordance with the ethical standards of the institutional and/or national research committee and with the 1964 Helsinki declaration and its later amendments or comparable ethical standards. For this type of study, based exclusively on routinely collected data, formal consent is not required.
Results
The study included 4,158 new users of olodaterol and 9,966 new users of indacaterol (Fig. 1) across the three countries. Among users of olodaterol or indacaterol, the main reason for exclusion was not being a new user.
Number of users of olodaterol and indacaterol before and after fulfilling inclusion/exclusion criteria in each data source.
Demographic and lifestyle characteristics
The median age ranged from 63 years (IMS RWE LPD GP panel) to 71 years (Denmark) in new users of olodaterol and ranged from 63 years (IMS RWE LPD GP panel) to 69 years (Denmark) in new users of indacaterol (Table 1). Overall, the proportion of females and males among new users of olodaterol and indacaterol was close to 50% in all data sources except in the IMS RWE LPD pulmonologist panel, where 64.6% of the new users of olodaterol and 66.9% of the new users of indacaterol were males. In most data sources, a high proportion of patients had no information recorded on lifestyle characteristics. Among patients with recorded information on smoking history, the proportion of those who were current smokers was around 50% in PHARMO-GP and in the IMS RWE LPD GP panel and was higher in the IMS RWE LPD pulmonologist panel, which reported that 90.7% of the new users of olodaterol and 72.2% of the new users of indacaterol were current smokers. There was incomplete recording of obesity in all data sources. In the subset of patients in PHARMO-GP for whom information on obesity was available (72.8% of those new users of olodaterol and 64.6% among new users of indacaterol), the proportion of overweight or obese patients was 66.1% among new users of olodaterol and was 66.7% among new users of indacaterol. The proportion of patients with a recorded diagnosis of alcohol-related disorders was below 10% in all health care databases for both olodaterol and indacaterol new users.
Comorbidities (respiratory-related and nonrespiratory-related) ever before the index date
In general, the proportion of patients with recorded respiratory and nonrespiratory diseases was higher among new users of olodaterol than among new users of indacaterol. Frequent respiratory comorbidities other than COPD were asthma, pneumonia, and other respiratory conditions (Table 2). The most frequent nonrespiratory diseases among new users of olodaterol and indacaterol across data sources were hypertension, ischemic heart disease, other forms of heart disease, arrhythmias, renal disease, diabetes mellitus, and malignancies (Table 2).
Comedications (respiratory-related and nonrespiratory-related) prescribed/dispensed within 1 year before the index date
In general, prescriptions/dispensings for respiratory and nonrespiratory medications in the year before the index date were more frequent among new users of olodaterol than among new users of indacaterol in all data sources (Table 2). The most frequent prescription/dispensing for respiratory medications in the year before the index date among new users of olodaterol and indacaterol was LAMA, followed by systemic glucocorticosteroids, short-acting beta2-agonist (SABA), LABA/ICS, nasal glucocorticosteroids, and LABA. The most frequent prescriptions/dispensings for nonrespiratory medications among new users of olodaterol and indacaterol were, in general, cardiovascular medications, followed by systemic antibacterial, proton pump inhibitors, antithrombotic agents, and drugs for musculoskeletal system.
COPD severity among new users with COPD at the index date
Severity of COPD among new users of olodaterol and indacaterol aged 40 years or older with COPD in PHARMO overall, PHARMO-GP, and in Denmark is presented in Table 3. The proportion of patients aged 40 years or older with severe or very severe COPD was lowest in PHARMO-GP and highest in Denmark, ranging from 41.7% (PHARMO-GP) to 67.1% (Denmark) among new users of olodaterol and from 42.5% (PHARMO-GP) to 53.0% (PHARMO overall) among new users of indacaterol.
Frequency of off-label use of olodaterol and indacaterol
The proportion of patients with off-label prescription/dispensing ranged from 3.5% (PHARMO overall) to 12.4% (IMS RWE LPD GP panel) in new users of olodaterol and ranged from 3.5% (PHARMO overall) to 11.9% (IMS RWE LPD GP panel) in new users of indacaterol (Fig. 2 and Supplemental Tables 5 and 6). On-label prescribing/dispensing ranged from 47.8% (PHARMO overall) to 77.7% (IMS RWE LPD pulmonologist panel) in new users of olodaterol and from 28.7% (Denmark) to 70.1% (IMS RWE LPD pulmonologist panel) in new users of indacaterol. The proportion of new users classified as potential off-label prescription/dispensing ranged from 17.3% in the IMS RWE LPD pulmonologist panel to 48.6% in PHARMO overall for olodaterol and 20.5% in the IMS RWE LPD pulmonologist panel to 66.6% in Denmark for indacaterol. Among those patients classified as having potential off-label prescription/dispensing, between 33.9% (IMS RWE LPD GP panel) and 76.3% (PHARMO overall) of the new users of olodaterol and between 20.3% (IMS RWE LPD GP panel) and 60.0% (PHARMO overall) of the new users of indacaterol were classified as having probable COPD.
Frequency of off-label, on-label and potential off-label use in new users of olodaterol and indacaterol.
Conclusion
The prevalence of off-label use of olodaterol (3.5% to 6.2%) and indacaterol (3.5% to 9.4%) reported in the present study was at the lower bound of the range of off-label use reported by the European Commission (EC) in 2017. In this review, off-label use of different medications, either specific active substances or drug classes, in 13 European studies in a variety of therapeutic areas ranged from 6% to 72%. Off-label use for respiratory medications indicated either for asthma or COPD was 69% among patients aged 18–70 years and 17% among patients aged >70 years20. In this study, the prevalence of off-label use of olodaterol and indacaterol was only somewhat higher in the IMS RWE LPD GP panel (12.4% for olodaterol and 11.9% for indacaterol). No notable differences in off-label use were observed between olodaterol and indacaterol.
Results of the present study indicate that new users of olodaterol and indacaterol represent an elderly population, with a similar sex distribution and a high prevalence of respiratory and nonrespiratory comorbidities and use of comedications. In general, age and sex distribution of new users of olodaterol were similar to that of new users of indacaterol, and were in line with findings in former studies19,21,22,23. A high degree of data on lifestyle characteristics were missing due to type and availability of information in the health care databases. New users of olodaterol had more comorbidities and used more comedications than new users of indacaterol. In general, the frequency of comorbidities among new users of olodaterol and indacaterol was in the range of that reported in the literature for patients with COPD, although the prevalence of most nonrespiratory comorbidities such as hypertension or ischemic heart disease was lower than expected in the IMS RWE LPD panels19,22,23,24. Differences in the type and availability of data in each data source and differences in the duration of the look-back period may explain part of the differences observed between data sources. The results indicate that olodaterol, the newer medication, tends to be prescribed to patients who are less stable and need medication changes or to patients with more severe COPD as compared with older medications with similar indications of use (i.e. indacaterol). Differences in the distribution of COPD severity by data source can also be explained by the type and availability of data, i.e., in Denmark only patients who have had a hospital contact for COPD could have a recorded diagnosis of COPD, thus diagnosis of COPD recorded among those patients managed in primary care could not be captured. The proportion of use of other respiratory medications in PHARMO overall, PHARMO-GP, and Denmark was similar to proportions of these medications described in the literature, except that of prior use of ICS, which was lower19,21.
The study included a high number of users across different health care systems and data sources in Europe. Performing the study across several data sources increased the number of new users being evaluated and allowed assessment of potential differences in the patterns of use between countries for the medications of interest. Heterogeneity in the type and completeness of the information in these data sources may be driving, at least in part, the differences observed between them. However, the results must be evaluated in the context of the study’s two main limitations. First, the data sources used in this study provided detailed information on prescribed/dispensed medications but not on the actual use of the medications, and this may lead to exposure misclassification, which can be worst in patients with COPD, a disease with frequently low adherence and persistence to treatment25,26. This type of misclassification is more likely to occur in the IMS RWE LPD panels that have information on prescriptions rather than in the PHARMO and Danish data sources that have information on dispensings27. Second, the recorded COPD and asthma diagnosis might be incomplete. In the present study, on-label use was identified only by recorded diagnoses for COPD. It is likely that this method resulted in an underestimation of the prevalence of on-label use due to the potential incomplete recording of COPD diagnosis in the health care data sources [18]. A high proportion of new users of olodaterol and indacaterol had neither recorded COPD nor asthma diagnosis codes and were classified as “potential off-label use”. To untangle the potential misclassification due to incomplete recording, a medication algorithm was used to identify patients that were likely to have COPD. A high proportion of up to 76.3% of the patients in PHARMO overall without a recorded diagnosis of COPD or asthma had “probable COPD” based on the medication proxy, suggesting that these patients are likely using the drug on-label versus what had been identified in the participating health care databases. Results also suggest that recording of COPD is more incomplete in the IMS RWE LPD GP panel, in the PHARMO overall, and in Denmark compared with PHARMO-GP and the IMS RWE LPD pulmonologist panel. Incomplete recording of COPD diagnosis in the IMS RWE LPD GP panel is likely to occur because of the nature of the database, where only day-to-day diagnoses are recorded and there is no incentive to record all of a patient’s comorbidities. In PHARMO overall, only 25% have primary care data, and in Denmark there is no access to primary care data. The diagnosis and treatment of COPD is often managed by GPs outside hospitals, implying that hospital-based diagnoses capture primarily patients with more severe COPD. Therefore, incomplete recording of COPD is expected when only hospital data and not primary care data is available. This issue is supported by literature showing that COPD prevalence in Denmark was estimated to approximately 4.3% in hospital settings, while it was estimated to be 12% in primary care settings8,28. Even in health care data sources with access to primary care data, recording may be incomplete when recording is not mandatory for the GPs. Incomplete recording is also supported by the fact that the proportion of patients classified as having “probable COPD” is high in all data sources, but higher in data sources with no primary care data.
Use of olodaterol and indacaterol among patients with asthma only (and no COPD) is expected to be limited to patients who have failed to experience symptom improvement with other LABAs, who may find presentation dosage or device to be less convenient, or who have had drug substance-specific adverse events or contraindications. Routinely collected data used in this study do not specifically record indication for use or patient preference; therefore, the reported level of off-label use is at least partially attributable to the limitations of the data sources. Similarly, we cannot completely rule out potential misclassification of COPD as asthma, although it is less likely that true asthma was misclassified as COPD.
Overall, this study provides no evidence of a major concern for an off-label use of olodaterol or indacaterol in asthma or pediatric use of olodaterol or indacaterol in Europe. The lack of direct evidence of prescribed indication (potential off-label use) for a high proportion of patients is a limitation for some data sources, although indirect evidence supports that off-label use is low. Finally, given that asthma management guidelines have consistently and strongly recommended that LABAs should be used only in combination with ICS13, it is expected that use of olodaterol and indacaterol among patients with asthma only is done with concomitant use of ICS, although this was not evaluated in our study.
Data availability
This study uses the national health care databases, panels of physicians, and registries. Only the aggregated data, in the form of study results in the main manuscript and in the supplementary material can be shared.
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Acknowledgements
Joan Forns for medical writing support and Whitney Krueger, forme rly of RTI-HS, and Carla Franzoni, currently of RTI-HS, for project management support. The authors would also like to thank Patricia Tennis, retired from RTI-HS, for her contribution t o the study design and Fernie Penning-van Beest for quality control during the study in PHARMO, as well as all the health care providers contributing information to the PHARMO Database Network. Lisbeth Munksgård Baggesen and Dora Farkas for data analyses of the Danish National Registers. Geoffray Bizouard for data analyses of IMS RWE LPD database. This study was funded by Boehringer Ingelheim GmbH under a contract granting independent publication rights to the research team. Boehringer Ingelheim co-authors of this manuscript, Ulrich Bothner, Jukka Montonen and Laura Wallace, provided feedback and contributed to the design of the study. The sponsor had the opportunity to review the report and contribute to the dissemination of the results.
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C.R., E.H., K.L., J.A.G., J.O., V.E., J.A.S. & A.G. provided substantial contributions to study design and interpretation of the data, performed the research, and wrote or critically reviewed the work for important intellectual content. J.A.G., E.H. and J.A.S. also analyzed the data. J.M., U.B. & L.W. provided substantial contributions to study designed and interpretation of the data and critically reviewed the work for important intellectual content. All authors approved the final version of the manuscript and are accountable for all aspects of this research.
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Cristina Rebordosa, Jaume Aguado, and Alicia Gilsenan are employees of RTI Health Solutions, a unit of RTI International, a non-profit organization that conducts work for government, public, and private organizations, including pharmaceutical companies like Boehringer Ingelheim. Eline Houben and Jetty Overbeek are employees of the PHARMO Institute for Drug Outcomes Research. This independent research institute performs financially supported studies for government and related health care authorities and several pharmaceutical companies. Joelle Asmar is employee of IQVIA, an independent research institute that performs financially supported studies for health care authorities and several pharmaceutical companies. Vera Ehrenstein and Kristina Laugesen are salaried employees of Aarhus University/Aarhus University Hospital. Ulrich Bothner, Jukka Montonen and Laura Wallace are employees of Boehringer Ingelheim.
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Rebordosa, C., Houben, E., Laugesen, K. et al. No Evidence of Off-label Use of Olodaterol and Indacaterol in Denmark, France, and the Netherlands: A Drug Utilization Study. Sci Rep 10, 586 (2020). https://doi.org/10.1038/s41598-019-57397-5
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DOI: https://doi.org/10.1038/s41598-019-57397-5
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