Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Kew KM, Karner C, Mindus SM, Ferrara G This is a reprint of a Cochrane review, prepared and maintained by The Cochrane Collaboration and published in The Cochrane Library 2013, Issue 12 http://www.thecochranelibrary.com Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. TABLE OF CONTENTS HEADER . . . . . . . . . . . . . . . . . . . . ABSTRACT . . . . . . . . . . . . . . . . . . . PLAIN LANGUAGE SUMMARY . . . . . . . . . . . SUMMARY OF FINDINGS FOR THE MAIN COMPARISON BACKGROUND . . . . . . . . . . . . . . . . . OBJECTIVES . . . . . . . . . . . . . . . . . . METHODS . . . . . . . . . . . . . . . . . . . RESULTS . . . . . . . . . . . . . . . . . . . . Figure 1. . . . . . . . . . . . . . . . . . . Figure 2. . . . . . . . . . . . . . . . . . . Figure 3. . . . . . . . . . . . . . . . . . . Figure 4. . . . . . . . . . . . . . . . . . . DISCUSSION . . . . . . . . . . . . . . . . . . AUTHORS’ CONCLUSIONS . . . . . . . . . . . . ACKNOWLEDGEMENTS . . . . . . . . . . . . . REFERENCES . . . . . . . . . . . . . . . . . . CHARACTERISTICS OF STUDIES . . . . . . . . . . DATA AND ANALYSES . . . . . . . . . . . . . . . ADDITIONAL TABLES . . . . . . . . . . . . . . . WHAT’S NEW . . . . . . . . . . . . . . . . . . CONTRIBUTIONS OF AUTHORS . . . . . . . . . . DECLARATIONS OF INTEREST . . . . . . . . . . . SOURCES OF SUPPORT . . . . . . . . . . . . . . DIFFERENCES BETWEEN PROTOCOL AND REVIEW . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 1 2 4 6 7 7 9 10 13 15 16 17 19 20 20 24 34 36 37 37 37 37 37 Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. i [Intervention Review] Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children Kayleigh M Kew1 , Charlotta Karner2 , Stephanie M Mindus3 , Giovanni Ferrara3,4,5 1 Population Health Sciences and Education, St George’s, University of London, London, UK. 2 BMJ-TAG, BMJ, London, UK. Department of Respiratory Medicine and Allergy, Karolinska University Hospital Solna, Stockholm, Sweden. 4 Respiratory Medicine Unit, Department of Medicine, Karolinska Institutet, Stockholm, Sweden. 5 Section of Respiratory Diseases, Department of Internal Medicine, University of Perugia, Perugia, Italy 3 Contact address: Kayleigh M Kew, Population Health Sciences and Education, St George’s, University of London, Cranmer Terrace, London, SW17 0RE, UK. kkew@sgul.ac.uk. Editorial group: Cochrane Airways Group. Publication status and date: Edited (no change to conclusions), published in Issue 12, 2013. Review content assessed as up-to-date: 19 November 2013. Citation: Kew KM, Karner C, Mindus SM, Ferrara G. Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children. Cochrane Database of Systematic Reviews 2013, Issue 12. Art. No.: CD009019. DOI: 10.1002/14651858.CD009019.pub2. Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. ABSTRACT Background Asthma is characterised by chronic inflammation of the airways and recurrent exacerbations with wheezing, chest tightness and cough. Treatment with inhaled steroids and bronchodilators often results in good control of symptoms, prevention of further morbidity and mortality and improved quality of life. Several steroids and beta2 -agonists (long- and short-acting) as well as combinations of these treatments are available in a single inhaler to be used once or twice a day, with a separate inhaler for relief of symptoms when needed (for patients in Step three or higher, according to Global Initiative for Asthma (GINA) guidelines). Budesonide/formoterol is also licenced for use as maintenance and reliever therapy from a single inhaler (SiT; sometimes referred to as SMART therapy). SiT can be prescribed at a lower dose than other combination therapy because of the additional steroid doses being received as reliever therapy. It has been suggested that using SiT improves compliance and hence reduces symptoms and exacerbations, but it is unclear whether it increases side effects associated with the use of inhaled steroids. Objectives To assess the efficacy and safety of budesonide/formoterol in a single inhaler (SiT) to be used for both maintenance and reliever therapy in asthma in comparison with maintenance treatment provided through combination inhalers with a higher maintenance steroid dose (either fluticasone/salmeterol or budesonide/formoterol), along with additional fast-acting beta2 -agonists for relief of symptoms. Search methods We searched the Cochrane Airways Group Specialised Register of trials, online trial registries and drug company websites. The most recent search was conducted in November 2013. Selection criteria We included parallel-group, randomised controlled trials of at least 12 weeks’ duration. Studies were included if they compared singleinhaler therapy with budesonide/formoterol (SiT) versus combination inhalers at a higher maintenance dose of steroids than was given in the SiT arm (either salmeterol/fluticasone or budesonide/formoterol). Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 1 Data collection and analysis We used standard methods expected by The Cochrane Collaboration. Primary outcomes were exacerbations requiring hospitalisation, exacerbations requiring oral corticosteroids and serious adverse events (including mortality). Main results Four studies randomly assigning 9130 people with asthma were included; two were six-month double-blind studies, and two were 12-month open-label studies. No trials included children younger than age 12. Trials included more women than men, with mean age ranging from 38 to 45, and mean baseline steroid dose (inhaled beclomethasone (BDP) equivalent) from 636 to 888 µg. Mean baseline forced expiratory volume in one second (FEV1 ) percentage predicted was between 70% and 73% in three of the trials, and 96% in another. All studies were funded by AstraZeneca and were generally free from methodological biases, although the two openlabel studies were rated as having high risk for blinding, and some evidence of selective outcome reporting was found. These possible sources of bias did not lead us to downgrade the quality of the evidence. The quantity of inhaled steroids, including puffs taken for relief from symptoms, was consistently lower for SiT than for the comparison groups. Separate data for exacerbations leading to hospitalisations, to emergency room (ER) visits or to a course of oral steroids could not be obtained. Compared with higher fixed-dose combination inhalers, fewer people using SiT had exacerbations requiring hospitalisation or a visit to the ER (odds ratio (OR) 0.72, 95% confidence interval (CI) 0.57 to 0.90; I2 = 0%, P = 0.66), and fewer had exacerbations requiring a course of oral corticosteroids (OR 0.75, 95% CI 0.65 to 0.87; I2 = 0%, P = 0.82). This translates to one less person admitted to hospital or visiting the ER (95% CI 0 to 2 fewer) and two fewer people needing oral steroids (95% CI 1 to 3 fewer) compared with fixed-dose combination treatment with a short-acting beta-agonist (SABA) reliever (per 100 treated over eight months). No statistical heterogeneity was observed in either outcome, and the evidence was rated of high quality. Although issues with blinding were evident in two of the studies, and one study recruited a less severe population, sensitivity analyses did not change the main results, so quality was not downgraded. We could not rule out the possibility that SiT increased rates of serious adverse events (OR 0.92, 95% CI 0.74 to 1.13; I2 = 0%, P = 0.98; moderate-quality evidence, downgraded owing to imprecision). We were unable to say whether SiT improved results for several secondary outcomes (morning and evening peak expiratory flow (PEF), rescue medication use, symptoms scales), and in cases where results were significant, the effect sizes were not considered clinically meaningful (predose FEV1 , nocturnal awakenings and quality of life). Authors’ conclusions SiT reduces the number of people having asthma exacerbations requiring oral steroids and the number requiring hospitalisation or an ER visit compared with fixed-dose combination inhalers. Evidence for serious adverse events was unclear. The mean daily dose of inhaled corticosteroids (ICS) in SiT, including the total dose administered with reliever use, was always lower than that of the other combination groups. This suggests that the flexibility in steroid administration that is possible with SiT might be more effective than a standard fixed-dose combination by increasing the dose only when needed and keeping it low during stable stages of the disease. Data for hospitalisations alone could not be obtained, and no studies have yet addressed this question in children younger than age 12. PLAIN LANGUAGE SUMMARY For people with chronic asthma, is a single combination inhaler for both regular and “as-needed” treatment better than two separate inhalers? Background for the review Asthma is a chronic inflammation of the airways that causes flare-ups of wheezing, chest tightness and coughing. Treatment with inhaled steroids and other inhaled drugs that relax the airways (bronchodilators) often gives good control of symptoms, prevents serious flare-ups and improves quality of life. Several steroids and bronchodilators (long- and short-acting) as well as combinations of these treatments are available in a single inhaler. This review focusses on a particular inhaled therapy called ’single-inhaler therapy’ (SiT), sometimes called SMART therapy. The idea is that the SiT is taken once or twice a day and also anytime it is needed for relief of symptoms. In theory, this improves compliance, controls asthma symptoms and prevents exacerbations while allowing lower overall exposure to inhaled steroids. The drugs contained in SiT are budesonide and formoterol. Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 2 This review aimed to find out whether SiT is as safe and effective as a combination inhaler (containing a steroid and a long-acting beta-agonist (LABA)) plus another inhaler for relief of symptoms. The review looked at the effects of these treatments for adults and children with chronic asthma. What did we find? Four studies including 9130 adults and adolescents were included. None of the studies included children younger than age 12. The studies lasted for six months to a year, and all were funded by one drug company. Studies included more women than men, with average age of about 40. Three studies recruited people with quite similar symptoms, but one study included people with less severe asthma. The studies were well conducted, although two did not hide which treatments were being taken (known as blinding), which might have affected the results. The amount of inhaled steroids, including puffs taken for relief from symptoms, was consistently lower for SiT than for the comparison groups using two types of inhalers. Overall, we believe that the quality of the evidence was high to moderate. Main findings Fewer people taking SiT had flare-ups that needed a hospital stay or a visit to the ER (one fewer per 100 treated than in the control group, 95% CI 0 to 2 fewer) or a course of oral steroids (two fewer per 100 treated, 95% CI one to three fewer). If more studies are published, it is unlikely that our opinions on these main findings will change. However, we could not tell whether one treatment caused more serious adverse events than the other. Other findings SiT had a small benefit on one measure of lung function (predose forced expiratory volume in one second (FEV1 )). However, for several other measures, not enough information was available to show which treatment was better (amount of medication taken on an ’as needed’ basis, various symptom measures and quality of life). In conclusion, SiT reduces the need for a hospital stay or an ER visit and for courses of oral steroids for asthma flare-ups. SiT did not increase the quantity of inhaled steroids taken overall, and it was unclear whether it increases or decreases serious side effects. Currently no data are available for the use of SiT in children younger than age 12. Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 3 Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. S U M M A R Y O F F I N D I N G S F O R T H E M A I N C O M P A R I S O N [Explanation] SIT for maintenance/relief compared with ICS/LABA combination at a higher fixed dose + SABA for chronic asthma in adults and children Patient or population: Studies recruited adults and adolescents aged 12 and older with chronic asthma Intervention: SiT for maintenance and relief Comparison: higher-dose ICS/LABA as maintenance + SABA as relief Setting: community Outcomes Illustrative comparative risks* (95% CI) Follow-up calculated as weighted means, with Assumed risk Corresponding risk range Relative effect (95% CI) No of participants (studies) Quality of the evidence (GRADE) Overall heterogeneity and subgroup differences (ICS/LABA combination in control group) Higher-dose ICS/LABA+ SiT for maintenance/reSABA lief People with exacerba- No data tions requiring hospitalisation No data - - - AstraZeneca could not provide data for hospitalisations separate to ER visits Patients with exacer- 10 per 100 bations requiring oral steroids Follow-up: eight months (six to 12) Eight per 100 (seven to nine) OR 0.75 (0.65 to 0.87) 9096 (four studies) ⊕⊕⊕⊕ high I2 = 0%; P value 0.82 Subgroup differences (P value 0.45) Patients with serious ad- Four per 100 verse events Follow-up: eight months (six to 12) Four per 100 (three to five) OR 0.92 (0.74 to 1.13) 9130 (four studies) ⊕⊕⊕ moderate1 I2 = 0%; P value 0.98 Subgroup differences (P value 0.88) Patients with severe Five per 100 exacerbations (requiring hospitalisation or ER visit) Follow-up: eight months Four per 100 (three to five) OR 0.72 (0.57 to 0.90) 7768 (three studies) ⊕⊕⊕⊕ high I2 = 0%; P value 0.66 Subgroup differences (P value 0.21) 4 Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. (six to 12) *The basis for the assumed risk (e.g. the median control group risk across studies) is provided in footnotes. The corresponding risk (and its 95% confidence interval) is based on the assumed risk in the comparison group and the relative effect of the intervention (and its 95% CI). CI: Confidence interval; OR: Odds ratio; ICS/LABA: inhaled corticosteroid/long-acting beta2 -agonist combination inhaler; SABA: short-acting beta2 -agonist; SiT: single-inhaler therapy with budesonide/formoterol inhaler. GRADE Working Group grades of evidence. High quality: Further research is very unlikely to change our confidence in the estimate of effect. Moderate quality: Further research is likely to have an important impact on our confidence in the estimate of effect and may change the estimate. Low quality: Further research is very likely to have an important impact on our confidence in the estimate of effect and is likely to change the estimate. Very low quality: We are very uncertain about the estimate. 1. Wide confidence intervals, downgraded once for imprecision. Although issues with blinding were noted in two of the studies, and one study recruited a less severe population, sensitivity analyses did not change the main results, so outcomes were not downgraded. 5 BACKGROUND Description of the condition Asthma is a chronic inflammatory disorder of the airways in which many cells and cellular elements play a role (GINA 2012). An unequivocal clinical definition of asthma has not been determined, although it is postulated that in all forms of asthma, chronic inflammation is associated with bronchial hyperresponsiveness, leading to recurrent episodes of wheezing, breathlessness, cough and chest tightness, especially during the night and early in the morning. Wide variations in age of onset, symptoms, triggers, association with allergic disease and type of inflammatory cell infiltrate have been seen in patients diagnosed with asthma, underlying the probable existence of more than one pathophysiological process. Patients with all forms and severity of disease typically have intermittent symptoms of cough, wheeze and/or breathlessness. Underlying these symptoms is a process of variable and at least partially reversible airway obstruction, airway hyperresponsiveness and (with the possible exception of solely exercise-induced asthma) chronic inflammation. Description of the intervention throughout this review. SiT can be prescribed at a lower dose than other ICS/LABA combination therapy because of the additional ICS being received as reliever therapy. This might allow asthma symptoms to be controlled and exacerbations to be prevented with lower overall exposure to inhaled steroids. It has been suggested that using one inhaler in this way for both maintenance and reliever therapy could also be more effective by improving compliance, but it is unclear whether it increases side effects associated with the use of inhaled steroids. Combination therapy with separate short-acting bronchodilator The two commonly used combination inhalers are budesonide and formoterol, and fluticasone and salmeterol. The LABA, salmeterol, has a relatively slow onset of bronchodilation (Palmqvist 2001), and it is not licenced for use on an ’as-needed’ basis; this means that salmeterol and fluticasone can be used only for maintenance therapy, and a separate SABA is needed for additional symptom relief. Reliever medication with SABAs such as salbutamol and terbutaline, or formoterol (a fast-acting but longer-lasting formulation), is licenced for this purpose (BTS/SIGN 2012). Budesonide and formoterol combinations can be used alongside SABAs in this way. Single-inhaler therapy (SiT) How the intervention might work Asthma therapy is based on modulation of airways inflammation, which is the main cause of symptoms and exacerbations. This is not necessary for people with very mild and intermittent asthma, as symptoms can be well controlled with a short-acting beta2 -agonist (SABA) as relief (Step one; GINA 2012). People with persistent asthma can use preventer therapy (usually low-dose inhaled corticosteroid (ICS)) to maintain symptom control, improve lung function and reduce the need for emergency care by modulating airways inflammation (Step two; GINA 2012). Combination therapy with a long-acting beta2 -agonist (LABA) and ICS is regularly used to maintain control in patients with persistent/chronic asthma not achieving good control of symptoms and exacerbations with low-dose ICS alone, and it is often used with an additional short-acting inhaler when needed (Step three; GINA 2012). Some people might need a medium to high dose of ICS combined with LABA (Step four; GINA 2012). This step-wise approach allows practitioners to tailor the use of ICS and combinations to the severity of asthma in different patients, thereby avoiding excessive exposure to steroids and their long-term side effects (GINA 2012). One particular combination inhaler containing budesonide (ICS) and formoterol (LABA) has the potential to be used for both maintenance and reliever therapy; this enables patients and doctors to increase the dose of both medications simultaneously, with some flexibility when asthma symptoms worsen. This is known as single-inhaler therapy (SiT), or SMART therapy-referred to as SiT The combination of ICS and LABA in a single inhaler is an effective way of delivering maintenance anti-inflammatory and bronchodilator therapy in chronic asthma (Greenstone 2005; Ni Chroinin 2005). The anti-inflammatory properties of the ICS and the bronchodilatory effect of the LABA play complementary roles in reducing inflammation in the airways and improving lung function with relief of symptoms related to bronchospasm (Adams 2008; Walters 2007). Both are recommended when low-dose ICS alone is not sufficient to control asthma, which is stated at Step three in the British asthma guidelines (BTS/SIGN 2012). Concerns have been raised about the use of single-inhaler LABA in chronic asthma, in particular when it is used without a regular ICS, in relation to the possible increased risk of severe adverse events and asthma-related death (Cates 2008; Cates 2008a; Walters 2007). The flexibility in steroid administration that is possible with SiT might be more effective than a standard fixed-dose combination, allowing steroid dose to be increased as a reliever when needed while keeping the maintenance dose low when the disease is stable. Why it is important to do this review It is recognised that many patients who are prescribed ICS do not continue to take the treatment in clinical practice, and combination inhalers can increase ICS use both as daily maintenance Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 6 therapy with a SABA inhaler for relief (Delea 2008) and as singleinhaler therapy (SiT) (Sovani 2008). Whilst trials that have investigated doubling the dose of ICS early in exacerbations have been disappointing (FitzGerald 2004; Harrison 2004), with SiT it is possible for the patient to automatically increase both LABA and ICS when asthma worsens and to cut down again as symptoms improve. This holds out the prospect of maintaining control of asthma and preventing exacerbations with lower overall exposure to ICS. Concomitant delivery of ICS and LABA avoids the inadvertent use of LABA without prescribed ICS treatment, and although this method has been advocated as a new approach to asthma care (Barnes 2007), some have pointed out limitations in the current research evidence in children and adults with less severe asthma (Bisgaard 2003; Lipworth 2007). Fixed-dose budesonide and formoterol against maintenance treatment with salmeterol and fluticasone has already been reviewed (Lasserson 2011). Previous reviews have also assessed budesonide/ formoterol as reliever therapy (with identical maintenance treatment) against other reliever therapy (Cates 2009), and SiT versus fixed-dose maintenance ICS and current best practice (Cates 2009a; Cates 2013). This review has identified and summarised clinical trials that compare single-inhaler therapy for maintenance and relief with budesonide/formoterol (SiT) against maintenance treatment with combination inhalers (either salmeterol/fluticasone or budesonide/formoterol) and a SABA as relief. As SiT can be prescribed at a lower dose than other ICS/LABA combination therapy because of the additional ICS being received as reliever therapy, we decided that combination inhalers at a higher steroid maintenance dose would provide the most useful comparison. We included randomised trials of parallel-group design of at least 12 weeks’ duration. Types of participants Adults and children with a diagnosis of chronic asthma. We accepted study-defined asthma and recorded the definition of asthma used in the studies. We did not include studies conducted in an ER setting. Types of interventions Eligible treatment group intervention Any dose of combined budesonide and formoterol delivered through a single inhaler for maintenance and reliever therapy (SiT). Eligible control group treatment Combination ICS/LABA inhalers (fluticasone/salmeterol or budesonide/formoterol) at a higher maintenance steroid dose than the maintenance dose in the SiT group, with additional fast-acting beta2 -agonist inhaler for symptom relief. Types of outcome measures OBJECTIVES Primary outcomes To assess the efficacy and safety of budesonide/formoterol in a single inhaler (SiT) to be used for both maintenance and reliever therapy in asthma in comparison with maintenance treatment provided through combination inhalers with a higher maintenance steroid dose (either fluticasone/salmeterol or budesonide/ formoterol), along with additional fast-acting beta2 -agonists for relief of symptoms. 1. Exacerbations requiring hospitalisation. 2. Exacerbations requiring oral corticosteroids. 3. Serious adverse events (including mortality and lifethreatening events). METHODS Criteria for considering studies for this review Types of studies Secondary outcomes 1. Severe exacerbations (composite outcome of hospitalisation/ER visit). 2. Diary card morning and evening peak expiratory flow (PEF, L/min). 3. Clinic spirometry (FEV1 , mL). 4. Number of rescue medication puffs required per day. 5. Days with symptoms/symptom-free days (%). 6. Nocturnal awakenings (%). 7. Quality of life. Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 7 Search methods for identification of studies Electronic searches We identified trials from the Cochrane Airways Group Specialised Register of trials (CAGR), which is derived from systematic searches of bibliographic databases including the Cochrane Central Register of Controlled Trials (CENTRAL), MEDLINE, EMBASE, CINAHL, AMED and PsycINFO, and from handsearching of respiratory journals and meeting abstracts (please see Appendix 1 for further details). All records in the CAGR coded as ’asthma’ were searched using the following terms: (“single inhaler” or SiT or SMART or relie* or “as need*” or asneed* or prn or flexible or titrat*) and ((combin* or symbicort or viani) or ((budesonide or BUD) AND (formoterol or eformoterol))) We also conducted a search of ClinicalTrials.gov. The search terms are given in Appendix 2. All databases were searched from their inception to November 2013, with no restriction on language of publication. Searching other resources We checked reference lists of all primary studies and review articles for additional references. We searched the manufacturer’s website (AstraZeneca clinical trials database) for additional study information for studies identified through the electronic searches. Data collection and analysis Selection of studies After electronic literature searches were completed, two review authors independently selected articles on the basis of titles and abstracts for full-text scrutiny. The review authors agreed on a list of articles, which were retrieved, and we subsequently assessed each study to determine whether it was a secondary publication of a primary study publication and whether the study met the entry criteria of the review. 2. Participants (N, mean age, age range of the study, baseline lung function, % on maintenance ICS or ICS/LABA combination and average daily dose of steroid (inhaled beclomethasone (BDP) equivalent), entry criteria). 3. Intervention (type and dose of component ICS and LABA, control limb dosing schedule, intervention limb dose adjustment schedule, inhaler device, study duration and run-in). 4. Outcomes (type of outcome analysis, outcomes analysed). Assessment of risk of bias in included studies We assessed the risk of bias according to recommendations in the Cochrane Handbook for Systematic Reviews of Interventions (Higgins 2011) for the following items. 1. Sequence generation. 2. Allocation concealment. 3. Blinding of participants and investigators. 4. Blinding of outcome assessors. 5. Loss to follow-up. 6. Reporting bias. Each potential source of bias was graded as low, high or unclear risk of bias. We also noted other sources of bias. Measures of treatment effect We analysed dichotomous data as odds ratios, and continuous data as mean differences or standardised mean differences. Data for each of the outcomes considered by the review were extracted from the trial publication(s) or from correspondence with study authors or the manufacturer. Exacerbations, the primary outcome for this review, have been reported by subtype (hospitalisations, ER visits and courses of oral steroids) and as a composite outcome when the breakdowns were not given. Serious adverse events were considered together as fatal and non-fatal events. Unit of analysis issues We used participants (rather than events) as the unit of analysis. Some participants suffer more than one exacerbation over the course of a study, and these events are not independent. Data extraction and management We recorded the definition of asthma used in the studies, as well as the entry criteria. We recorded whether asthma was defined according to guidelines. We summarised baseline severity of the condition (according to international guidelines, e.g. GINA 2011; BTS/SIGN 2012), persistence of symptoms and lung function among the enrolled participants, as well as data on prestudy maintenance therapies. We extracted the following characteristics. 1. Design (description of randomisation, blinding, number of study centres and locations, number of study withdrawals). Dealing with missing data The proportion of randomly assigned participants who provided data for the main outcomes has been reported and compared with the number of participants with events in each outcome category. Assessment of heterogeneity Statistical variation between combined studies was measured by the I2 statistic (Higgins 2003). When this exceeded 20%, we investigated the possible causes of heterogeneity. Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 8 Assessment of reporting biases We planned to inspect funnel plots to see whether publication bias was evident if more than 10 studies had been included. When trial protocols had been published in advance, we compared the outcomes suggested in the trial protocol versus those reported for each trial. Data synthesis Data were combined in Review Manager 5, using a fixed-effect mean difference (calculated as a weighted mean difference) for continuous data variables, and a fixed-effect odds ratio for dichotomous variables. For the primary outcomes of exacerbations and serious adverse events, we have calculated absolute effects for the different levels of risk, as represented by control group event rates over a specified time period using the pooled odds ratio and its confidence interval and an online calculator (Visual Rx). A Summary of findings table was constructed for the primary outcomes. 18 upwards, and adult and adolescent studies were considered as those that recruited participants from age 12 upwards. We considered participants in studies in which the upper age limit was 12 years as children, and in studies where the upper age limit was 18 years as children and adolescents. We aimed to perform subgroup analyses in relation to asthma severity (classified according to major international guidelines (BTS/SIGN 2012; GINA 2012) and dose equivalence of treatments used) but found that it was more appropriate to remove one study in a sensitivity analysis (see Outcomes and analysis structure in Results). Sensitivity analysis Sensitivity analysis has been conducted on the basis of risk of bias in studies and baseline severity (based on baseline use of ICS and baseline percentage predicted FEV1 ). RESULTS Subgroup analysis and investigation of heterogeneity We analysed studies that compared SiT with salmeterol/fluticasone together with those studies that compared SiT with maintenance budesonide/formoterol, and we presented both the results of each comparison group separately and the pooled result. In the case of Kuna 2007 [COMPASS], which had two intervention groups relevant to this review, we halved the number of participants in the group that served twice as the control to avoid overrepresentation. For dichotomous outcomes, we halved both the numerator and the denominator of the group that served twice, and for continuous outcomes, we halved only the number of participants. It is noted that this may have affected the power of the subgroup analyses and tests for subgroup differences, and this was considered in their interpretation. If the search had returned data on both adult and child populations, we planned to pool the data in subgroups. Adult studies were considered as those that recruited participants from age Description of studies Full details of the conduct and characteristics of each included study can be found in Characteristics of included studies, and reasons for exclusion when full texts had to be viewed are given in Characteristics of excluded studies. Results of the search Three-hundred fifty-five references were identified through database searching and through additional searching of industry databases and relevant reference lists. Of these, 241 were excluded upon a sift of the titles and abstracts. One hundred six records were assessed for eligibility, of which 74 were found to not meet the review’s inclusion criteria (reasons for exclusion can be found in Figure 1). Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 9 Figure 1. Study flow diagram. Included studies Four studies (32 citations) met the inclusion criteria, randomly assigning 9130 people with a diagnosis of asthma to the comparisons of interest in this review. Kuna 2007 [COMPASS] contributed the largest sample size to the analyses, with 3335 people randomly assigned across three intervention groups. Stallberg 2008 [SHARE] included the smallest number of people, with 1343 participants randomly assigned to the two arms relevant to this review. Design and duration All studies were multi-centre, randomised, parallel-group controlled trials, taking place at between 22 and 235 centres. Two were six-month double-blind studies (Bousquet 2007 [AHEAD]; Kuna 2007 [COMPASS]), and two administered the medications on an open-label basis for one year (Stallberg 2008 [SHARE]; Vogelmeier 2005 [COSMOS]). Three studies described two-week run-in phases, during which participants received their usual ICS therapy (and LABA when this was part of their treatment regimen), with terbutaline as rescue medication. Stallberg 2008 [SHARE] did not describe a run-in period. Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 10 Participant inclusion and exclusion criteria Full details of the inclusion and exclusion criteria of each trial can be found in Characteristics of included studies. Inclusion and exclusion criteria were very similar across trials. All trials included outpatients at least 12 years of age and thus were treated as adult and adolescent studies. All participants were required to have a diagnosis of persistent asthma characterised by at least one exacerbation in the 12 months before study entry. In two trials, participants’ prebronchodilator FEV1 had to be greater than 50% predicted normal: One required between 40% and 90% (Vogelmeier 2005 [COSMOS]), and the other trial did not specify (Stallberg 2008 [SHARE]). All trials recruited participants taking regular ICS therapy and in regular need of a rescue inhaler. Studies excluded participants who had recently had a respiratory infection or had recently received a course of systemic corticosteroids. Two trials stated that participants with a smoking history of greater than 10 pack-years were excluded (Bousquet 2007 [AHEAD]; Stallberg 2008 [SHARE]). Two trials excluded participants who had been taking an ICS/LABA inhaler during the previous three (Vogelmeier 2005 [COSMOS]) or 12 months (Stallberg 2008 [SHARE]). Baseline characteristics of participants Full details of the baseline characteristics of participants in each study can be found in Characteristics of included studies, and a summary in Table 1. Participants’ mean age was similar across the trials, ranging from 38 to 45 years. Trials generally included more women than men (between 38% and 44% male). Participants’ mean FEV1 percentage predicted was between 70% and 73% in three of the trials and was significantly higher in Stallberg 2008 [SHARE], at 96%. The mean daily dose of steroid being taken at baseline (BDP equivalent) ranged from 636 to 888 µg for individual arms within the studies. Characteristics of the interventions Table 2 shows the planned daily treatment schedules and total ICS received with SiT and with the comparison interventions in each of the four studies. Kuna 2007 [COMPASS] and Stallberg 2008 [SHARE] used a daily SiT dose of 320/9 µg, and Stallberg 2008 [SHARE] also allowed the lower dose of 160/9 to be given, depending on baseline ICS use. Bousquet 2007 [AHEAD] and Vogelmeier 2005 [COSMOS] used the higher SiT dose of 640/ 18 µg per day. All studies used 160/4.5-µg inhalations as the reliever dose in SiT. Three studies used fluticasone/salmeterol in the comparison group-two at a daily dose of 500/100 µg (ICS/LABA) (Kuna 2007 [COMPASS]; Vogelmeier 2005 [COSMOS]), and the third at 1000/100 (Bousquet 2007 [AHEAD]). Two studies used budesonide/formoterol in the control group-Kuna 2007 [COMPASS] at a dose of 640/18 µg, and Stallberg 2008 [SHARE] at 320/18 µg or 640/18 µg, depending on baseline ICS dose. Three of the studies used terbutaline as the SABA in the control group, and Vogelmeier 2005 [COSMOS] used salbutamol. Although some variation between studies was noted, the planned and total received ICS doses (presented as BDP equivalents) were consistently lower in SiT. Outcomes and analysis structure All but one of the studies reported the number of people with exacerbations requiring hospitalisation or an ER visit, but these data could not be used for the primary hospitalisation outcome, as there was no way of knowing how many people had experienced hospitalisation and how many had been to the ER (or both). AstraZeneca, the drug company that funded all of the included studies, was unable to provide data for hospitalisations alone, so no data could be analysed for this primary outcome. All studies reported serious adverse events that could be meta-analysed. Exacerbations and adverse events were coded by study investigators, who were aware of allocation in Stallberg 2008 [SHARE] and Vogelmeier 2005 [COSMOS]. Studies did not routinely report as a separate outcome the number of people requiring a course of oral steroids , but these data were sought from the pharmaceutical company sponsoring the studies and owning the data (AstraZeneca) and are presented in Analysis 1.1. The data for hospitalisations and ER visits combined are reported under the heading ’Severe exacerbations’ in Analysis 1.3. Secondary outcomes were generally poorly reported. Morning and evening PEF, symptom-free days and nocturnal awakenings were reported by only two studies (Bousquet 2007 [AHEAD]; Kuna 2007 [COMPASS]), representing three comparisons in each outcome. The same two studies also reported rescue medication use, and additional data were provided upon request by AstraZeneca for Vogelmeier 2005 [COSMOS]. Two studies reported predose FEV1 (Kuna 2007 [COMPASS]; Vogelmeier 2005 [COSMOS]), and these data for Stallberg 2008 [SHARE] were provided by AstraZeneca. Bousquet 2007 [AHEAD] and Vogelmeier 2005 [COSMOS] reported symptoms as measured by the Asthma Control Questionnnaire (ACQ)-5, meaning that no data were available on the use of budesonide/formoterol by the control group. Only Vogelmeier 2005 [COSMOS] reported a measure of quality of life that could be analysed. Meta-analyses compared SiT versus combination inhalers of a higher fixed maintenance dose and additional fast-acting beta2 agonists for relief. Results were subgrouped according to the ICS/ LABA combination in the comparison group (i.e. fluticasone/salmeterol or budesonide/formoterol). Although we planned to carry out subgroup analyses according to symptom severity, we decided that a sensitivity analysis excluding Stallberg 2008 [SHARE] was more appropriate. Participants in Bousquet 2007 [AHEAD], Kuna 2007 [COMPASS] and Vogelmeier 2005 [COSMOS] had mean baseline lung function between 70% and 75% predicted and baseline ICS use towards the top of the medium range. Participants were generally also required Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 11 to have used ICS/LABA for one to three months, to have had one or more exacerbations over the last year and to have the need for reliever medication on three to five days out of seven. Conversely, although participants in Stallberg 2008 [SHARE] had comparable mean baseline ICS doses of around 650 µg budesonide in both groups, percent predicted FEV1 was much higher, at 95% and 97%,respectively. Excluded studies Reasons for study exclusion can be found in Characteristics of excluded studies, and associated references are provided in Excluded studies. Three studies (D589LC00001 2011 [SAKURA]; O’Byrne 2005 [STAY]; Rabe 2006 [SMILE]) were excluded at a late stage, when it became clear that the maintenance ICS dose in the control group was not higher than the mainte- nance dose prescribed for the intervention group, and hence they did not meet the inclusion criteria. Risk of bias in included studies For details of the risk of bias rating for each study and the reasons for each rating, see Characteristics of included studies. A summary of the risk of bias judgements by study and domain (allocation generation, allocation concealment, blinding and incomplete data) can be found in Figure 2. All studies were funded by only one pharmaceutical company (AstraZeneca) and were mostly free from methodological biases, although two studies were rated at high risk for blinding because the inhalers were delivered in an open-label design. Evidence of selective outcome reporting was found in two of the trials, and this is reflected in the grade ratings of the affected outcomes. Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 12 Figure 2. Risk of bias summary: review authors’ judgements about each risk of bias item for each included study. Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 13 Allocation It is unlikely that selection bias compromised the validity of this review. All studies used adequate methods to allocate participants to groups and were rated as low risk of bias for sequence generation. All studies stated that randomisation codes were sequentially assigned from a list that was computer generated, and this was confirmed through communication with AstraZeneca. Stallberg 2008 [SHARE] stated that allocation was stratified according to ICS dose at baseline, and Bousquet 2007 [AHEAD] stated that randomisation occurred in balanced blocks. All studies used adequate methods to conceal the allocation sequence until assignment and were rated as low risk of bias in this domain. Three studies (Bousquet 2007 [AHEAD]; Kuna 2007 [COMPASS]; Stallberg 2008 [SHARE]) provided individual treatment codes in sealed envelopes, and one provided allocation by means of an interactive voice response system (Vogelmeier 2005 [COSMOS]). reported all relevant outcomes, we could not locate the study protocol and hence could not confirm that all predefined outcomes were included in the published report. Stallberg 2008 [SHARE] and Vogelmeier 2005 [COSMOS] were rated as high risk of bias because they omitted data or did not provide it in a reasonable format for one or more of the outcomes. Although additional outcome data and information about study methodology were provided by AstraZeneca, several outcomes still did not include data from all four studies. Other potential sources of bias No other sources of bias were identified. Effects of interventions See: Summary of findings for the main comparison SiT for maintenance/relief compared with higher-dose ICS/LABA + SABA for chronic asthma in adults and children Blinding Ineffective blinding procedures may have introduced bias into the analyses in this review. Two studies used adequate double-dummy procedures and labelling to conceal the medications from participants and providers and were rated as low risk of bias (Bousquet 2007 [AHEAD]; Kuna 2007 [COMPASS]). The other two studies used an open-label design and therefore were at high risk of performance and detection bias by participants and investigators (Stallberg 2008 [SHARE]; Vogelmeier 2005 [COSMOS]). Three studies did not state whether outcome assessors were blind to treatment allocation (Bousquet 2007 [AHEAD]; Kuna 2007 [COMPASS]; Stallberg 2008 [SHARE]), so were rated as unclear. The remaining study described dose titration by investigators, who appeared to be those who rated outcomes, and hence was rated at high risk of bias (Vogelmeier 2005 [COSMOS]). Incomplete outcome data Little evidence of attrition bias was found in the included studies. Withdrawal rates were low (highest 14% in the fluticasone/salmeterol group of Vogelmeier 2005 [COSMOS]) and even between groups in all studies. Single-inhaler therapy (SiT) versus ICS/LABA combination inhalers at a higher ICS dose with separate SABA relief Full details of the analyses and their GRADE ratings can be found in Data and analyses and Summary of findings for the main comparison. Primary outcomes Subgroup analyses based on the ICS/LABA combination in the comparison group were performed for all of the primary outcomes. No evidence of subgroup differences was found for exacerbations requiring oral steroids or serious adverse events, although splitting the SiT group in Kuna 2007 [COMPASS] may have resulted in an underestimation of subgroup differences. For full details of the individual subgroup effects, see Analysis 1.1 and Analysis 1.2. Although two of the studies were open-label, one of which recruited a less severe population, we chose not to downgrade the evidence for these reasons based on the sensitivity analyses presented. Exacerbations requiring hospitalisation Selective reporting Varied evidence of reporting bias was found in the four included studies, and this may have affected the robustness of some analyses. Bousquet 2007 [AHEAD] was rated as low risk of bias, as we were able to locate the trial registration and check it against the study report. Although it appeared that Kuna 2007 [COMPASS] All but one of the studies reported the number of people with exacerbations requiring hospitalisation or an ER visit, but these data could not be used, as there was no way of knowing how many people had been admitted to hospital for an exacerbation and how many had been to the ER. AstraZeneca, the drug company that funded all of the included studies, was unable to provide data related purely to hospitalisations. Available data (composite of Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 14 exacerbations requiring hospitalisation or an ER visit) are shown in the secondary outcome labelled ’Severe exacerbations’. Exacerbations requiring a course of oral corticosteroids SiT reduced the number of people who had an exacerbation requiring a course of oral corticosteroids (odds ratio (OR) 0.75, 95% confidence interval (CI) 0.65 to 0.87; I2 = 0%, P = 0.82). AstraZeneca provided data for 9096 people across all four studies, and the evidence was rated as high quality (no serious imprecision, inconsistency, risk of bias or indirectness). Figure 3 shows the absolute effect in a Cates plot. Figure 3. Cates plot: In the control group, 10 of 100 people had an exacerbation requiring oral steroids over eight months compared with eight (95% CI seven to nine) of 100 in the SiT group. Number of people with serious adverse events (including mortality) We could not rule out a possible increase or decrease in serious adverse events with SiT (OR 0.92, 95% CI 0.74 to 1.13; I² = 0%, P = 0.98), based on 9130 participants from all four trials, and no statistical heterogeneity was observed between study results. The evidence was downgraded once for imprecision and was rated as moderate quality, as the confidence intervals were wide. Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 15 Sensitivity analysis-baseline severity Stallberg 2008 [SHARE] was removed from the three primary outcomes in a sensitivity analysis because the population had much higher baseline percentage predicted FEV1 than that in the other studies. The study did not report exacerbations requiring hospitalisation, so this outcome was not affected. Conclusions for exacerbations requiring oral steroids (Analysis 1.1; Analysis 2.1) and serious adverse events (Analysis 1.2; Analysis 2.2) were unaffected by removing the study. hospitalisation or an ER visit (Analysis 2.3; Analysis 3.3), Secondary outcomes Subgroup analyses based on the ICS/LABA combination in the comparison group were performed for all of the secondary outcomes. In all cases, no heterogeneity (I² = 0%) between subgroups was noted, so only the pooled effect is reported to increase precision. Individual subgroup effects for each outcome can be found in Data and analyses. Sensitivity analysis-blinding Severe exacerbations (those requiring hospitalisation or an ER visit) Stallberg 2008 [SHARE] and Vogelmeier 2005 [COSMOS] were removed from the primary analyses for a sensitivity analysis on the basis of performance and detection bias (Figure 2). Results were very similar with and without the studies for exacerbations requiring oral steroids (Analysis 1.1; Analysis 3.1), serious adverse events (Analysis 1.2; Analysis 3.2) and exacerbations requiring The number of people who had at least one exacerbation meeting these criteria was lower in the SiT group (OR 0.72, 95% CI 0.57 to 0.90; I2 = 0%, P = 0.66), based on 7768 participants from three of the studies. No heterogeneity was observed, and the evidence was rated as high quality. Figure 4 shows the absolute effect in a Cates plot. Figure 4. Cates plot: In the control group, five of 100 people had an exacerbation requiring hospitalisation or an ER visit over eight months, compared with four (95% CI three to five) of 100 in the SiT group. Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 16 Morning peak expiratory flow (PEF, L/min) SiT was not significantly different from higher-dose ICS/LABA for morning PEF (mean difference (MD) -1.46, 95% CI -3.85 to 0.94; I² = 0%, P = 0.67), based on 5624 participants in two studies (three comparisons). No heterogeneity was observed between studies, and imprecision was judged to be not severe enough to warrant downgrading. However, given that two studies could not be included in the analysis, the outcome was downgraded for publication bias. The quality of this evidence was therefore rated as moderate. Evening peak expiratory flow (PEF, L/min) No significant difference between SiT and the control intervention was seen for evening PEF, and the magnitude of the mean difference was smaller (MD 0.11, 95% CI -2.24 to 2.46; I² = 0%, P = 0.61). Again, this was based on 5624 participants in two trials, and no heterogeneity was noted between studies. The quality of evidence was rated as moderate for the same reasons as in the morning PEF analysis. Symptoms rating-Asthma Control Questionnaire (ACQ-5) Moderate-quality evidence suggested a small but significant improvement with SiT on the ACQ-5 (MD -0.04, 95% CI -0.07 to 0.00; I² = 3%, P = 0.31), based on 4432 participants in two studies, and very little heterogeneity was noted between studies. Both studies used fluticasone/salmeterol in the control intervention. The evidence was downgraded for publication bias, as two studies (representing three comparisons) did not report the outcome. Symptom-free days (%) SiT was not significantly different from higher-dose combination therapy in terms of symptom-free days (MD -1.16, 95% CI 2.99 to 0.68; I² = 0%, P = 0.66), based on 5644 participants in two trials (representing three comparisons), and no heterogeneity was seen between the studies. The evidence was downgraded for publication bias only and was rated as moderate quality. Nocturnal awakenings (%) Predose forced expiratory volume in one second (FEV1 , mL) SiT was associated with slightly better predose FEV1 compared with the control intervention (MD 19.35, 95% CI 2.72 to 35.98; I² = 0%, P = 0.65) with no heterogeneity. The analysis was based on 7566 participants in three trials (representing four comparisons), and the evidence was rated as moderate quality, as downgraded for imprecision because the confidence intervals included almost no benefit. Rescue medication puffs required per day Because of the nature of the comparison, rescue medication referred to different treatments in the intervention and control arms: In the SiT group, rescue medication is the number of additional puffs of budesonide/formoterol combination inhaler taken per day, and in the control arm, it is the number of puffs of the SABA inhaler provided as reliever medication. In each case, it captures the need for additional medication on top of regular twice-daily maintenance treatment. The need for rescue mediation was not statistically different between SiT and controls (MD -0.09, 95% CI -0.27 to 0.09; I² = 93%, P > 0.00001), based on 7725 participants in three trials (representing four comparisons), but considerable heterogeneity was observed between the two studies. As such, a random-effects model was used, and the outcome was downgraded for inconsistency. The outcome was also downgraded for imprecision, and the evidence was rated as low quality. Nocturnal awakenings were reduced with SiT (MD -1.08, 95% CI -2.13 to -0.03; I² = 0%, P = 0.92), based on 5624 participants in two studies (in three comparisons). No heterogeneity was observed between the studies, although again, two studies were missing from the analysis. As such, the outcome was downgraded for publication bias and was rated as moderate quality. Quality of life-Asthma Quality of Life Questinnaire (AQLQ) Evidence of very low quality suggested a small benefit of SiT compared with a higher-dose fluticasone/salmeterol combination (MD -0.06, 95% CI -0.10 to -0.02). This was based on one study with 2143 participants (Vogelmeier 2005 [COSMOS]). The outcome was downgraded for the methodological risk of bias in Vogelmeier 2005 [COSMOS]. As none of the other three studies reported a quality of life measure that could be included in the meta-analysis, the evidence was downgraded twice for publication bias. DISCUSSION Summary of main results Four studies were included, randomly assigning 9130 participants with a diagnosis of persistent/chronic asthma (Step three and above; GINA 2012) to the comparisons of interest in this review. Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 17 None of the studies included children younger than age 12, so we were unable to draw conclusions for this group of participants. Meta-analyses compared SiT versus combination inhalers at a higher dose alongside fast-acting beta2 -agonists for relief. Results were subgrouped according to the ICS/LABA combination used in the comparison group (i.e. fluticasone/salmeterol or budesonide/ formoterol), but because no significant differences were noted for the primary outcomes, we have summarised the pooled estimates. Trials included more women than men, with mean age ranging from 38 to 45 and mean baseline steroid dose (BDP equivalent) from 636 to 888 µg. Mean baseline FEV1 percentage predicted was between 70% and 73% in three of the trials, and 96% in another. Fewer people taking SiT had an exacerbation requiring a course of oral steroids (OR 0.75, 95% CI 0.65 to 0.87) or requiring hospitalisation or a visit to the ER (OR 0.72, 95% CI 0.57 to 0.90). Data for hospitalisations independent from the other exacerbation criteria were not available. We could not rule out the possibility of SiT increasing or decreasing serious adverse events (OR 0.92, 95% CI 0.74 to 1.13). No important variation was seen in the main findings, and they were mostly rated high quality (i.e. further research is very unlikely to change our confidence in the estimate of effect). Inconsistent reporting of secondary outcomes reduced our confidence in these findings. No significant difference was observed between SiT and higher-dose combinations for morning PEF, evening PEF, rescue medication use or number of symptom-free days. On three secondary outcomes for which SiT showed a statistically significant benefit, the magnitude of effect was not deemed clinically meaningful (FEV1 , nocturnal awakenings and quality of life). Sensitivity analyses to explore two potential moderators of effect (baseline severity and blinding) did not change conclusions, but differences in dose regimens and in participant characteristics are likely to have introduced some inconsistency in the findings. In addition, although all studies were funded by AstraZeneca, which provided additional data for several outcomes, methodological differences such as blinding and inclusion criteria may reduce our confidence in the results. Overall completeness and applicability of evidence None of the studies included participants younger than age 12, so the evidence can be applied only to adults and adolescents. Singleinhaler therapy is not currently licenced for children younger than age 18, and the only study that included children did not meet the inclusion criteria for this review (O’Byrne 2005 [STAY]). In addition, no data were available for one of the primary outcomes-exacerbations leading to hospitalisation-representing an important gap in the evidence. Although exacerbations were reported in several other ways, hospitalisation is distinct from the other classifications because of the extent of associated healthcare costs and disruption for the participant. Participants in Bousquet 2007 [AHEAD], Kuna 2007 [COMPASS] and Vogelmeier 2005 [COSMOS] had mean baseline lung function between 70% and 75% predicted and baseline ICS use towards the top of the medium range. Participants in these studies generally were required to have used LABA/ICS for one to three months, to have had one or more exacerbations in the past year and to have needed reliever medication on at least three days a week. On the basis of the sensitivity analysis to investigate changes in primary outcomes after exclusion of the one remaining study (Stallberg 2008 [SHARE]) recruiting a less severe population, it seems likely that the results of this review are applicable to patients of somewhat different severities. A degree of variation between studies was seen in the amount of ICS received, and this may be an important source of heterogeneity; in the SiT groups, the actual received steroid dose ranged from 454 to 1238 BDP equivalent, and from 574 to 2000 in the comparison groups. In the individual studies, people in the comparison group always received more ICS than those in the SiT group (using the amount of ICS from the maintenance SiT dose alone, or the amount from both maintenance and relief inhalations), but the absolute levels were highly variable among studies. The variability in doses may reflect the design of the studies and differences in baseline severity, although the sensitivity analysis excluding one study with very different inclusion criteria did not change the results. The dose differences might also reflect a certain variability in guidelines for the treatment of asthma associated with the fact that the studies were performed in different years and in different countries. For this reason, we were unable to draw conclusions about dose. A potential issue is the generalisability of the SiT approach and results to clinical practice: All studies were conducted in a controlled manner, with regular follow-up and specific training in the use of inhalers, and this might be difficult to reproduce in the day-by-day clinical work of general practitioners and even specialists. Adherence to treatment is one of the main factors limiting clinical efficacy of interventions in asthma; this is recognised and addressed in current guidelines (BTS/SIGN 2012; GINA 2012). Another potential issue regards patients who tend to overuse their relief medications and whether the intensive instruction and management of participants in trials are representative of clinical practice. Overuse of inhalers is certainly something to consider in the clinical management of all patients with asthma, regardless of the type of device or beta2 -agonist prescribed as relief, but this is something that occurs relatively seldom nowadays, especially in patients reaching good control of their symptoms with the addition of inhaled steroids. An associated concern is the potential for overconsumption of inhaled steroids associated with single-inhaler therapy. However, the current meta-analysis shows in a good sample size that participants treated in the SiT arm had in fact received Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 18 lower doses of inhaled steroids during and at the end of the trials, and this was associated with a reduced need for systemic steroids. The review did not look at specific adverse events related to steroid use to limit the number of outcomes; instead the review authors looked generally at the rate of more serious events. Analysing the data in this way could have masked potential differences in the rates of overall adverse events of any severity or of particular adverse events associated with ICS use. In the light of the raised safety concerns associated with ICS+LABA therapy, critical evaluation of safety outcomes becomes very important. The title included evaluation of the safety of the combination; however, certain important issues including withdrawal overall and withdrawal due to specific reasons, adverse effects overall and specific adverse effects have not been addressed in the review. It would be great to address the issues of withdrawal as an indirect support for the primary outcome. Quality of the evidence Some of the results may be subject to detection and performance bias because two of the studies did not blind study medication from participants and investigators. Of these two studies, it was clear that in one, outcome assessors were also unblinded, and in the other, insufficient information was provided for review authors to judge. Similarly, use of different inhalers and techniques for the intervention and control arms in some ways precluded true blinding, and inhaler type may have introduced heterogeneity into some of the outcomes. In addition, several of the secondary outcomes contain only one or two studies; this prevented any strong conclusions from being drawn, despite the fact that AstraZeneca provided additional data for several of the outcomes. As only four included studies were identified, missing data from even one study could have a serious affect on the analysis. For this reason, unless all four studies could be included in the analysis, the evidence was downgraded for publication bias and was rated as moderate quality at best. We did not contact individual authors for extra data but liaised directly with AstraZeneca to make every effort to include all studies in as many of the outcomes as possible. throughout the review process in terms of study selection, resolution of disagreements, data extraction and analysis. Agreements and disagreements with other studies or reviews Several previous reviews have meta-analysed single-inhaler maintenance and reliever therapy versus other recommended treatment strategies (Agarwal 2009; Bateman 2011; Cates 2013; Edwards 2010). As in this review, all found that exacerbation rates were reduced with SiT compared with usual care (Cates 2013), ICS alone at equivalent or higher doses (Agarwal 2009; Cates 2013) and fixed-dose ICS/LABA combinations (Agarwal 2009; Bateman 2011; Edwards 2010). This reinforces the validity of our findings and suggests that SiT might induce better control of inflammation in asthma, thanks to low additional doses of inhaled steroids in combination with formoterol only when really needed because of the participant’s clinical condition. Evidence regarding the benefits of SiT for hospitalisation has been mixed. This review obtained evidence that is in line with evidence reported by Agarwal 2009 and Edwards 2010, which used similar comparators. Cates 2013 did not find that SiT reduced hospitalisations, but in this review, SiT was compared with ICS alone or with current best practice. Our review demonstrates a reduction in exacerbations requiring hospitalisation or an ER visit, although we were able to analyse data for the two definitions only separately. Czarnecka 2012 concluded that although single-inhaler therapy reduces exacerbations, it is associated with ’poor symptom control of asthma’. This is not in line with the findings of this review or with the conclusions of other reviews, which tend to report no evidence of statistical differences in various symptom measures or spirometry compared with other treatment strategies. Although this should not be interpreted as evidence of equivalent efficacy, it suggests that evidence is insufficient to permit review authors to state the superiority of SiT or the fixed-dose comparison for these outcomes. AUTHORS’ CONCLUSIONS Potential biases in the review process Implications for practice We are confident that all identifiable studies were found by using additional methods to catch anything that might not have been found in the main electronic search (e.g. searching drug company databases and clinical trial registration sites, checking reference lists). However, although every effort was made to find and include unpublished data, unpublished studies (industry funded or otherwise) may exist that might change our confidence in the conclusions (Song 2010). We adhered to best practice guidelines This review provides evidence of high and moderate quality showing that SiT reduces exacerbations requiring hospitalisation or an ER visit and courses of oral steroids. Current evidence is insufficient to show whether SiT is associated with more or fewer serious adverse events compared with higher fixed-dose ICS/LABA combinations, and no data were available for exacerbations leading to hospitalisation. The mean daily dose of ICS in SiT, including the total dose administered with reliever use, was always lower than Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 19 that of the other combination groups. This suggests that the flexibility in steroid administration that is possible with SiT might be more effective than a standard fixed-dose combination by increasing the dose only when needed and keeping it low during stable stages of the disease. the approach for participants with different severities of asthma. ACKNOWLEDGEMENTS The authors acknowledge Göran Eriksson and Roberta Karlström from AstraZeneca for providing additional data. Implications for research Research into this comparison should be aimed at children and adolescents with persistent asthma, particularly children younger than age 12, for whom no evidence is currently available. Researchers should report the number of people with the most severe exacerbations-those requiring admission to hospital-as distinct from the number with exacerbations leading to systemic medications and ER visits. Future studies might consider better characterising participants who are likely to benefit from SiT using different fixed doses of ICS combined with the LABA, to optimise CRG Funding Acknowledgement: The National Institute for Health Research (NIHR) is the largest single funder of the Cochrane Airways Group. Disclaimer: The views and opinions expressed herein are those of the review authors and do not necessarily reflect those of the NIHR, the NHS or the Department of Health. John White was the Editor for this review and commented critically on the review. REFERENCES References to studies included in this review Bousquet 2007 [AHEAD] {published and unpublished data} Bousquet J, Boulet LP. Budesonide/formoterol as maintenance and reliever therapy in uncontrolled asthma compared with high dose salmeterol/fluticasone: the AHEAD double blind study [Abstract]. European Respiratory Journal 2007;30 Suppl 51:358s [P2156]. ∗ Bousquet J, Boulet LP, Peters MJ, Magnussen H, Quiralte J, Martinez-Aguilar NE, et al.Budesonide/formoterol for maintenance and relief in uncontrolled asthma vs. highdose salmeterol/fluticasone. Respiratory Medicine 2007;101 (12):2437–46. Bousquet J, Miravitlles M, Wiren A. Budesonide/formoterol provides better efficacy at a lower or similar cost as compared to high dose salmeterol fluticasone treatment [Abstract]. European Respiratory Journal 2007;30 Suppl 51:193s [P1185]. Cisneros C, Quiralte J, Capel M, Casado MA, Mellstrom C. Cost-effectiveness analysis of budesonide/formoterol in the maintenance treatment and as-needed (Symbicort SMART) versus salmeterol/fluticasone plus terbutaline in the treatment of persistent asthma in Spain. Pharmacoeconomics 2010;7(4):163–75. Lin Dr J, Chen P, Zhou X, Sun T, Xie C, Xiu Q, et al.Budesonide/formoterol maintenance and reliever therapy in Chinese patients with asthma. Chinese Medical Journal 2012;125(17):2994–3001. [: 0366–6999] NCT00242775. Comparison of the Efficacy/Safety of Symbicort® Turbuhaler®,Seretide™ Diskus™ 50/500 µg & Terbutaline Turbuhaler® 0.4 mg. www.clinicaltrials.gov (accessed 24 April 2012). [AstraZeneca study ID: D5890C00002 ; clinicaltrials.gov study ID: NCT00242775] Peters M, Bousquet J. Episodic high reliever use with budesonide/formoterol; maintenance and reliever therapy confers added protection against asthma exacerbations [Abstract]. European Respiratory Journal 2007;30 Suppl 51: 615s [P3613]. Wickstrom J, Dam N, Malmberg I, Hansen BB, Lange P. Cost-effectiveness of budesonide/formoterol for maintenance and reliever asthma therapy in Denmark - Cost-effectiveness analysis based on five randomised controlled trials. Clinical Respiratory Journal 2009;3(3): 169–80. Kuna 2007 [COMPASS] {published and unpublished data} AstraZeneca SD. Comparison of the efficacy and safety of one inhalation of Symbicort® Turbuhaler® 160/4.5 µg bid plus as-needed with two inhalations of SeretideTM EvohalerTM 25/125 µg bid plus Terbutaline Turbuhaler® 0.4 mg as-needed, and one inhalation of Symbicort® Turbuhaler® 320/9 µg bid plus Terbutaline Turbuhaler® 0.4 mg as-needed. A 6-month, randomised, double-blind, double-dummy, parallel-group, active-controlled, multicentre, phase IIIB study in adult and adolescent asthmatic patients. www.astrazenecaclinicaltrials.com/ (accessed 26 April 2012). Boonsawat W. Cost-effectiveness of budesonide/formoterol maintenance and rescue therapy in Thailand. Asian Biomedicine 2010;4(4):571–8. Buhl R, Kuna P. Does the choice of ICS/LABA regimen influence exacerbation rates in asthma patients with high as needed use? [Abstract]. European Respiratory Journal 2007; 30 Suppl 51:617s [P3620]. Kuna P. Treatment comparison of budesonide/formoterol with salmeterol/fluticasone propionate in adults aged >= 16 years with asthma: post hoc analysis of a randomized, Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 20 double-blind study. Clinical Drug Investigation 2010;30(9): 565–79. Kuna P, Peeters M, Buhl R. Budesonide/formoterol for maintenance and relief vs higher dose ICS/LABA therapy outcomes in patients symptomatic on high dose inhaled corticosteroids (HDICS) [Abstract]. European Respiratory Journal 2007;30 Suppl 51:357s [P2152]. Kuna P, Peters J, Buhl R. Budesonide/formoterol as maintenance and reliever therapy reduces asthma exacerbations versus higher maintenance dose of budesonide/formoterol or salmeterol/fluticasone [Abstract]. European Respiratory Journal 2006;28 Suppl 50:205s [P1228]. ∗ Kuna P, Peters MJ, Manjra AI, Jorup C, Naya IP, Martinez-Jimenez NE, et al.Effect of budesonide/formoterol maintenance and reliever therapy on asthma exacerbations. International Journal of Clinical Practice 2007;61(5): 725–36. Miller E, FitzGerald JM. Budesonide/formoterol as maintenance and reliever treatment compared to fixed dose combination strategies - a Canadian economic evaluation. Canadian Journal of Clinical Pharmacology 2008;15(2): e165–76. Price D, Wiren A, Kuna P. Budesonide/formoterol (B/F) as maintenance and relief for asthma improves efficacy and is cost saving versus higher maintenance dose of B/F or salmeterol/fluticasone (S/F) [Abstract]. European Respiratory Journal 2006;28 Suppl 50:214s [P1274]. Price D, Wiren A, Kuna P. Cost-effectiveness of budesonide/ formoterol for maintenance and reliever asthma therapy. Allergy: European Journal of Allergy and Clinical Immunology 2007;62(10):1189–98. Tamminen K, Laine J, Soini E, Martikainen J, Kankaanranta H. Cost-effectiveness analysis of budesonide/formoterol maintenance and reliever therapy versus fixed combination treatments for asthma in Finland. Current Medical Research and Opinion 2008;24(12):3453–61. Wickstrom J, Dam N, Malmberg I, Hansen BB, Lange P. Cost-effectiveness of budesonide/formoterol for maintenance and reliever asthma therapy in Denmark - Cost-effectiveness analysis based on five randomised controlled trials. Clinical Respiratory Journal 2009;3(3): 169–80. Stallberg 2008 [SHARE] {published and unpublished data} NCT00259766. SHARE - Symbicort and Health Economics in a Real Life Evaluation. www.clinicaltrials.gov (accessed 24 April 2012). [AstraZeneca study ID: D5890L00001; clinicaltrials.gov study ID: NCT00259766] ∗ Stallberg B, Ekstrom T, Neij F, Olsson P, Skoogh BE, Wennergren G, et al.A real-life cost-effectiveness evaluation of budesonide/formoterol maintenance and reliever therapy in asthma. Respiratory Medicine 2008;102(10):1360–70. Stallberg B, Lofdahl CG, Skoogh BE, Wennergren G, Olsson P, Neij F, et al.Budesonide/formoterol maintenance and reliever therapy effective treatment at a lower cost [Abstract]. European Respiratory Society Annual Congress; 2008 Oct 4-8; Berlin. 2008:[4424]. Vogelmeier 2005 [COSMOS] {published and unpublished data} D’Urzo A, Vogeimeier C, Jaspal M, Merino JM, Boulet S. Symbicort (budesonide/formoterol) for both maintenance and relief reduces the exacerbation burden compared with titration of seretide (salmeterol/fluticasone) in patients with asthma, a real life study [Abstract]. American Thoracic Society International Conference; 2005 May 20-25; San Diego. 2005:[B35] [Poster: G24]. Johansson G, Andreasson EB, Larsson PE, Vogelmeier CF. Cost effectiveness of budesonide/formoterol for maintenance and reliever therapy versus salmeterol/ fluticasone plus salbutamol in the treatment of asthma. Pharmacoeconomics 2006;24(7):695–708. Johansson G, Larsson PER, Andreasson E. Maintenance plus as needed budesonide/formoterol is cost effective compared with dose titrated salmeterol/fluticasone [Abstract]. European Respiratory Journal 2005;26 Suppl 49: Abstract No. 432. Miller E, Sears MR, McIvor A, Liovas A. Canadian economic evaluation of budesonide-formoterol as maintenance and reliever treatment in patients with moderate to severe asthma. Canadian Respiratory Journal 2007;14(5):269–75. Vogelmeier C, D’Urzo A. Maintenance plus as-needed budesonide/formoterol vs salmeterol/fluticasone in a reallife setting [Abstract]. European Respiratory Journal 2005;26 Suppl 49:Abstract No. 2770. Vogelmeier C, D’Urzo A, Jaspal M, Merino JM, Johansson G, Boulet S. Symbicort for both maintenance and relief reduces exacerbations compared with a titration of Seretide (Advair) in patients with asthma: a real life study [Abstract]. American Thoracic Society International Conference 2005; May 20-25; San Diego. 2005:[C33] [Poster: F67]. ∗ Vogelmeier C, D’Urzo A, Pauwels R, Merino JM, Jaspal M, Boutet S, et al.Budesonide/formoterol maintenance and reliever therapy: An effective asthma treatment option?. European Respiratory Journal 2005;26(5):819–28. Vogelmeier C, Naya I, Ekelund J. Budesonide/formoterol maintenance and reliever therapy in Asian patients (aged >=16 years) with asthma: a sub-analysis of the COSMOS study. Clinical Drug Investigation 2012;32(7):439–49. [ES: 1179–1918: IL:1173–2563] Wickstrom J, Dam N, Malmberg I, Hansen BB, Lange P. Cost-effectiveness of budesonide/formoterol for maintenance and reliever asthma therapy in Denmark - Cost-effectiveness analysis based on five randomised controlled trials. Clinical Respiratory Journal 2009;3(3): 169–80. References to studies excluded from this review AstraZeneca 2005 {published data only} AstraZeneca. Symbicort single inhaler therapy for asthma in a general practice setting. www.clinicaltrials.gov (accessed 24 April 2012). AstraZeneca 2006 {published data only} AstraZeneca. SALTO - Symbicort single inhaler therapy use in adolescent adults and adults with persistent asthma. www.clinicaltrials.gov (accessed 24 April 2012). Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 21 Atienza 2013 {published data only} Atienza T, Aquino T, Fernández M, Boonsawat W, Kawai M, Kudo T, Ekelund J, Ivanov S, Carlsson LG. Budesonide/ formoterol maintenance and reliever therapy via Turbuhaler versus fixed-dose budesonide/formoterol plus terbutaline in patients with asthma: phase III study results. Respirology 2013;18(2):354–63. Balanzat 2004 {published data only} Balanzat A, Centanni S, Palmqvist M, Rabe K. Budesonide/ formoterol single inhaler therapy reduces over reliance on rapid acting reliever medication [Abstract]. European Respiratory Journal 2004;24 Suppl 48:344s. D589LC00001 2011 [SAKURA] {published data only} NCT00839800. Study to Investigate the Efficacy of Symbicort SMART. (SAKURA). www.clinicaltrials.gov (accessed 24 April 2012). [AstraZeneca study ID: D589LC00001; clinicaltrials.gov study ID: NCT00839800] Ghosh 1998 {published data only} Ghosh CS, Ravindran P, Joshi M, Nair SM. Cost effectiveness of preventer-reliever combination in the management of chronic asthma - RCT. Journal of Clinical Epidemiology 1998;51 Suppl 1:32S. Haughney 2009 {published data only} Haughney J, Aubier M, Buhl R, Ekstrom T, Ostinelli J, van Schayck CP, et al.Patient characteristics to determine an appropriate maintenance dose of budesonide/formoterol maintenance and reliever therapy [Abstract]. European Respiratory Society Annual Congress; 2009 Sept 12-16; Vienna. 2009:[3051]. Haughney J, van Schayck OCP, Aubier M, Ostinelli J, Ekström T, Jörgensen L, et al.Budesonide/formoterol maintenance and reliever therapy use in elderly asthma patients [Abstract]. European Respiratory Society Annual Congress; 2010 Sept 18-22; Barcelona. 2010:[P1212]. Loukides 2005 {published data only} Loukides S, Papageorgiou M, Karokis A, Zervas E, Christodoulopoulou A, Papageorgiou N, et al.Single inhaler therapy (SiT) with budesonide/formoterol (BUD/FUM) is effective in asthma control [Abstract]. European Respiratory Journal 2005;26 Suppl 49:Abstract No. 848. Lundborg 2006 {published data only} Lundborg M, Wille S, Bjermer L, Tilling B, Lundgren M, Telg G, et al.Maintenance plus reliever budesonide/ formoterol compared with a higher maintenance dose of budesonide/formoterol plus formoterol as reliever in asthma: An efficacy and cost-effectiveness study. Current Medical Research and Opinion 2006;22(5):809–21. O’Byrne 2005 [STAY] {published and unpublished data} Bateman ED, Palmqvist M, Juniper EF, Zhu Y, Ekstrom T. Single inhaler therapy with budesonide/formoterol has superior efficacy to fixed-dose budesonide/formoterol or a higher dose of budesonide alone [Abstract]. American Thoracic Society 100th International Conference; 2004 May 21-26; Orlando. 2004:A37 Poster J75. Bisgaard H, Hultquist C. Budesonide/formoterol for maintenance and as needed - a new approach to asthma management in children [Abstract]. European Respiratory Journal 2005;26 Suppl 49:Abstract No. 1060. Bisgaard H, Le Roux P, Bjamer D, Dymek A, Vermeulen JH, Hultquist C. Budesonide/formoterol maintenance plus reliever therapy: a new strategy in pediatric asthma. Chest 2006;130(6):1733–43. Bruce SA, Scherer YK. Maintenance and symptom relief with budesonide plus formoterol reduced severe asthma exacerbations. Evidence-Based Nursing 2005;8(3):78. O’Byrne PM. Acute asthma intervention: Insights from the STAY study. Journal of Allergy & Clinical Immunology 2007; 119(6):1332–6. ∗ O’Byrne PM, Bisgaard H, Godard PP, Pistolesi M, Palmqvist M, Zhu Y, et al.Budesonide/formoterol combination therapy as both maintenance and reliever medication in asthma.[see comment]. American Journal of Respiratory & Critical Care Medicine 2005;171(2):129–36. O’Byrne PM, Godard P, Pistolesi M, Ekstrom T. Single inhaler therapy with budesonide/formoterol improves asthma control compared with fixed dosing with budesonide/formoterol or a higher dose of budesonide alone [Abstract]. American Thoracic Society 100th International Conference; 2004 May 21-26; Orlando. 2004:A37 Poster J93. Pistolesi M, Godard P, Albers R, Ekstrom T. Budesonide/ formoterol single inhaler therapy (SiT) provides superior asthma control compared with fixed dose (FD) budesonide or budesonide/formoterol in patients with severe persistent asthma [Abstract]. European Respiratory Journal 2004;24 Suppl 48:509s. Wickstrom J, Dam N, Malmberg I, Hansen BB, Lange P. Cost-effectiveness of budesonide/formoterol for maintenance and reliever asthma therapy in Denmark - Cost-effectiveness analysis based on five randomised controlled trials. Clinical Respiratory Journal 2009;3(3): 169–80. Rabe 2006 [SMILE] {published and unpublished data} AstraZeneca SD. Efficacy of Symbicort® Turbuhaler® 160/4.5 ìg as needed versus Oxis® 4.5 ìg as needed and Bricanyl® 0.4 mg as needed in adults and adolescents with asthma receiving Symbicort® Turbuhaler® 160/4.5 ìg twice daily as maintenance treatment. A 12-month, randomised, double-blind, parallel-group, active-controlled, phase IIIB, multi-centre study. www.astrazenecaclinicaltrials.com/ (accessed 24 April 2012). Pistolesi M, Godard P, Albers R, Ekstrom T. Budesonide/ formoterol single inhaler therapy (SiT) provides superior asthma control compared with fixed dose (FD) budesonide or budesonide/formoterol in patients with severe persistent asthma [Abstract]. European Respiratory Journal 2004;24 Suppl 48:509s. ∗ Rabe KF, Atienza T, Magyar P, Larsson P, Jorup C, Lalloo UG. Effect of budesonide in combination with formoterol for reliever therapy in asthma exacerbations: a randomised controlled, double-blind study.[see comment]. Lancet 2006; 368(9537):744–53. Wickstrom J, Dam N, Malmberg I, Hansen BB, Lange Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 22 P. Cost-effectiveness of budesonide/formoterol for maintenance and reliever asthma therapy in Denmark - Cost-effectiveness analysis based on five randomised controlled trials. Clinical Respiratory Journal 2009;3(3): 169–80. Riemersma 2008 {published data only} Riemersma RA, Postma DS, van der Molen T. Budesonide/ formoterol maintenance and reliever therapy for asthma in general practice [Abstract]. American Thoracic Society International Conference; 2008 May 16-21; Toronto. 2008:A612[#A29]. Additional references Adams 2008 Adams NP, Bestall JC, Lasserson TJ, Jones PW, Cates CJ. Fluticasone versus placebo for chronic asthma in adults and children. Cochrane Database of Systematic Reviews 2008, Issue 4. [DOI: 10.1002/14651858.CD003135.pub4] Agarwal 2009 Agarwal R, Khan A, Aggarwal AN, Gupta D. Is the SMART approach better than other treatment approaches for prevention of asthma exacerbations? A meta-analysis. Monaldi Archives for Chest Disease 2009;71(4):161–9. [1122–0643: (Print)] Barnes 2007 Barnes PJ. Using a combination inhaler (budesonide plus formoterol) as rescue therapy improves asthma control. British Medical Journal 2007;335(7618):513. Bateman 2011 Bateman ED, Harrison TW, Quirce S, Reddel HK, Buhl R, Humbert M, et al.Overall asthma control achieved with budesonide/formoterol maintenance and reliever therapy for patients on different treatment steps. http://respiratoryresearch.com/content/12/1/38 (accessed 7 December 2013). [DOI: 10.1186/1465-9921-12-38] Bisgaard 2003 Bisgaard H. Effect of long-acting Beta2 agonists on exacerbation rates of asthma in children. Pediatric Pulmonology 2003;36(5):391–8. BTS/SIGN 2012 British Thoracic Society/ Scottish Intercolleate Guideline Network. British Guidelines on the Management of Asthma [revised January 2012]. http://www.sign.ac.uk/ (accessed 5 September 2012). Cates 2008 Cates CJ, Cates MJ, Lasserson TJ. Regular treatment with formoterol for chronic asthma: serious adverse events. Cochrane Database of Systematic Reviews 2008, Issue 4. [DOI: 10.1002/14651858.CD006923.pub2] Cates 2008a Cates CJ, Cates MJ. Regular treatment with salmeterol for chronic asthma: serious adverse events. Cochrane Database of Systematic Reviews 2008, Issue 3. [DOI: 10.1002/ 14651858.CD006363.pub2] Cates 2009 Cates CJ, Lasserson TJ. Combination formoterol and inhaled steroid versus beta2-agonist as relief medication for chronic asthma in adults and children. Cochrane Database of Systematic Reviews 2009, Issue 1. [DOI: 10.1002/ 14651858.CD007085.pub2] Cates 2009a Cates CJ, Lasserson TJ. Combination formoterol and budesonide as maintenance and reliever therapy versus inhaled steroid maintenance for chronic asthma in adults and children. Cochrane Database of Systematic Reviews 2009, Issue 2. [DOI: 10.1002/14651858.CD007313.pub2] Cates 2013 Cates Christopher J, Karner C. Combination formoterol and budesonide as maintenance and reliever therapy versus current best practice (including inhaled steroid maintenance), for chronic asthma in adults and children. Cochrane Database of Systematic Reviews 2013, Issue 4. [DOI: 10.1002/14651858.CD007313.pub3; : CD007313] Czarnecka 2012 Czarnecka K, Chapman KR. The clinical impact of single inhaler therapy in asthma. Clinical and Experimental Allergy 2012;42(7):1006–13. [1365–2222: (Electronic)] Delea 2008 Delea TE, Hagiwara M, Stanford RH, Stempel DA. Effects of fluticasone propionate/salmeterol combination on asthma-related health care resource utilization and costs and adherence in children and adults with asthma. Clinical Therapeutics 2008;30(3):560–71. Edwards 2010 Edwards SJ, von Maltzahn R, Naya IP, Harrison T. Budesonide/formoterol for maintenance and reliever therapy of asthma: a meta analysis of randomised controlled trials. International Journal of Clinical Practice 2010;64(5): 619–27. [1742–1241: (Electronic)] FitzGerald 2004 FitzGerald JM, Becker A, Sears MR, Mink S, Chung K, Lee J. Doubling the dose of budesonide versus maintenance treatment in asthma exacerbations. Thorax 2004;59(7): 550–6. GINA 2012 GINA. Global strategy for asthma management and prevention. http://www.ginasthma.org/ (accessed 10 March 2013). Greenstone 2005 Greenstone IR, Ni Chroinin MN, Masse V, Danish A, Magdalinos H, Zhang X, et al.Combination of inhaled long-acting beta2-agonists and inhaled steroids versus higher dose of inhaled steroids in children and adults with persistent asthma. Cochrane Database of Systematic Reviews 2005, Issue 4. [DOI: 10.1002/14651858.CD005533] Harrison 2004 Harrison T, Oborne J, Newton S, Tattersfield A. Doubling the dose of inhaled corticosteroid to prevent asthma Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 23 exacerbations: randomised controlled trial. Lancet 2004; 363(9405):271–5. vs. salmeterol/fluticasone in single inhalers. Pulmonary Pharmacology and Therapeutics 2001;14(1):29–34. Higgins 2003 Higgins JPT, Thompson SG, Deeks JJ, Altman DG. Measuring inconsistency in meta-analyses. British Medical Journal 2003;327:557–60. Review Manager 5 The Nordic Cochrane Centre; Cochrane Collaboration. Review Manager (RevMan) Version 5. Copenhagen: The Nordic Cochrane Centre; Cochrane Collaboration, 2008. Higgins 2011 Higgins JPT, Green S, editors. Cochrane Handbook for Systematic Reviews of Interventions Version 5.0.2 [updated September 2009]. The Cochrane Collaboration. www.cochrane-handbook.org, 2011. Song 2010 Song F, Parekh S, Hooper L, Loke Y, Ryder J, Sutton A, et al.Dissemination and publication of research findings: an updated review of related biases. http://www.google.co.uk/url?sa=t&rct=j&q=& esrc=s&source=web&cd=1&ved=0CDYQFjAA&url= http%3A%2F%2Fwww.hta.ac.uk%2Ffullmono%2Fmon1408.pdf& ei=f9TfUdf-C6˙T7AbRjICoDg&usg=AFQjCNHXDsDiIJivPVumE˙aFvjnvjMhqUw&sig2=bouiXecktYUZwSPeLE22w&bvm=bv.48705608,d.ZGU&cad=rja (accessed 7 December 2013). [DOI: 10.3310/hta14080] Lasserson 2011 Lasserson TJ, Ferrara G, Casali L. Combination fluticasone and salmeterol versus fixed dose combination budesonide and formoterol for chronic asthma in adults and children. Cochrane Database of Systematic Reviews 2011, Issue 12. [DOI: 10.1002/14651858.CD004106.pub4] Lipworth 2007 Lipworth BJ, Jackson C. A SMART choice for primary care asthma therapy?. http://www.bmj.com/cgi/eletters/335/ 7618/513#178078 (accessed 13 October 2007). Ni Chroinin 2005 Ni Chroinin M, Greenstone IR, Danish A, Magdolinos H, Masse V, Zhang X, et al.Long-acting beta2-agonists versus placebo in addition to inhaled corticosteroids in children and adults with chronic asthma. Cochrane Database of Systematic Reviews 2005, Issue 4. [DOI: 10.1002/ 14651858.CD005535] Palmqvist 2001 Palmqvist M, Arvidsson P, Beckman O, Peterson S, Lotvall J. Onset of bronchodilation of budesonide/formoterol Sovani 2008 Sovani MP, Whale CI, Oborne J, Cooper S, Mortimer K, Ekström T, et al.Poor adherence with inhaled corticosteroids for asthma: can using a single inhaler containing budesonide and formoterol help?. British Journal of General Practice 2008;58(546):37–43. Walters 2007 Walters EH, Gibson PG, Lasserson TJ, Walters JAE. Long-acting beta2-agonists for chronic asthma in adults and children where background therapy contains varied or no inhaled corticosteroid. Cochrane Database of Systematic Reviews 2007, Issue 1. [DOI: 10.1002/ 14651858.CD001385.pub2] ∗ Indicates the major publication for the study Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 24 CHARACTERISTICS OF STUDIES Characteristics of included studies [ordered by study ID] Bousquet 2007 [AHEAD] Methods Design: randomised, double-blind, parallel-group, multi-national study. The first participant was enrolled on 2 May 2005, and the last participant completed the study on 29 May 2006. The trial included 184 centres in 17 countries. Duration of treatment was six months Participants Population: 2309 participants with asthma were randomly assigned to SiT (1154) and fluticasone/salmeterol (1155) Inclusion criteria: outpatients aged 12 years or older, with persistent asthma, who had been treated with ICS alone (800 to 1600 µg/d) or ICS (400 to 1000 µg/d) in combination with LABA for at least three months before study entry. All eligible participants had a prebronchodilator forced expiratory volume in one second (FEV1 ) ≥ 50% of predicted normal value, with ≥ 12% reversibility following 1.0 mg terbutaline, and had experienced one or more clinically important asthma exacerbations (as judged by the clinician) in the previous 12 months (but none in the month before enrolment). To be eligible for randomisation at the end of run-in, participants had to have used asneeded terbutaline on five or more of the previous seven days, with no more than eight inhalations in any single day Exclusion criteria: recent respiratory infection, use of systemic corticosteroids within 30 days of study entry, use of any β-blocking agent (including eye drops) and a smoking history of ≥ 10 pack-years Interventions Run-in: During the two-week run-in period, participants used their regular maintenance dose of ICS (in combination with a LABA if used as maintenance before study entry) plus terbutaline (Bricanyls Turbuhalers, AstraZeneca, Sweden) as needed SiT: budesonide/formoterol 2*160/4.5 µg twice daily plus as needed (budesonide/formoterol maintenance and reliever therapy) Inhaler: Symbicorts Turbuhalers, AstraZeneca, Sweden Control: fluticasone/salmeterol 50/500 µg twice daily plus terbutaline 0.4 mg/inhalation for symptom relief Inhaler: SeretideTM DiskusTM, GlaxoSmithKline, UK Outcomes Primary: time to first severe exacerbation Secondary: rate of severe exacerbations; time to first hospitalisation/ER treatment; rate of hospitalisation/ER treatments; peak expiratory flow; reliever use; asthma symptoms; nights with awakenings due to asthma symptoms; composite measure of asthma control days (day and night with no asthma symptoms, no awakenings due to asthma symptoms and no use of as-needed medication); spirometry (FEV1 ); Asthma Control Questionnaire (5-item version; ACQ-5) Notes Funding: AstraZeneca Study number: AstraZeneca study code D5890C00002; clinical trial registration number: NCT00242775 Definitions: severe exacerbation: deterioration in asthma leading to hospitalisation/ emergency room (ER) treatment and/or oral corticosteroid treatment for at least three Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 25 Bousquet 2007 [AHEAD] (Continued) days Risk of bias Bias Authors’ judgement Support for judgement Random sequence generation (selection Low risk bias) Randomisation codes were sequentially assigned in balanced blocks from a computergenerated list at AstraZeneca R&D, Lund, Sweden Allocation concealment (selection bias) Low risk Participants were randomly assigned strictly sequentially as they became eligible. Each centre was provided with numbered and sealed randomisation envelopes by AstraZeneca (information provided by AZ) Blinding of participants and personnel Low risk (performance bias) All outcomes Maintenance and as-needed medications were administered in a blinded doubledummy fashion, with each participant receiving two inhalers for maintenance (one Turbuhaler, containing budesonide/formoterol or placebo; one DiskusTM, containing fluticasone/salmeterol or placebo) and one Turbuhaler containing budesonide/formoterol or terbutaline for relief Blinding of outcome assessment (detection Unclear risk bias) All outcomes Not described Incomplete outcome data (attrition bias) All outcomes Low risk Withdrawal rates were low and relatively even (8.5% SiT, 10.0% fluticasone/salmeterol). Rates were higher or of similar magnitude to those of several of the outcomes Selective reporting (reporting bias) Low risk Checked trial registration-all prespecified outcomes were reported in sufficient detail in the paper, with the exception of FEV1 (secondary outcome) Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 26 Kuna 2007 [COMPASS] Methods Design: randomised, double-blind, double-dummy, parallel-group study. The first participant was enrolled on 19 December 2003, and the last participant completed the study on 11 March 2005. The trial included 235 centres in 16 countries. Duration of treatment was six months Participants Population: 3335 participants with asthma (as defined by the American Thoracic Society) were randomly assigned to SiT (1107), fluticasone/salmeterol (1123) or budesonide/ formoterol (1105) Inclusion criteria: Outpatients aged ≥ 12 years with a diagnosis of asthma for ≥ six months and using ICS for ≥ three months (≥ 500 µg/d of budesonide or fluticasone (or ≥ 1000 µg/d of another ICS) for ≥ one month) were eligible for enrolment. Participants had to have a forced expiratory volume in one second (FEV1 ) ≥ 50% predicted normal with ≥ 12% reversibility following terbutaline 1 mg and ≥ one asthma exacerbation in the previous one to 12 months. Participants using reliever medication on ≥ five of the last seven days of the two-week run-in were randomly assigned Exclusion criteria: Those with > 10 as-needed inhalations on any day of run-in and participants who experienced an asthma exacerbation during run-in were not randomly assigned. Participants using systemic corticosteroids or with respiratory infections affecting asthma control within 30 days of study entry were excluded Interventions Run-in: During run-in, participants used their regular ICS for maintenance and terbutaline (Bricanyl Turbuhaler; AstraZeneca) for symptom relief. ICS/ LABA combination inhalers were stopped 72 hours before study entry and the corresponding ICS dose used SiT: budesonide/formoterol 160/4.5 µg one inhalation twice daily for maintenance plus additional inhalations as needed (Symbicort SiT) Inhaler: Symbicort Turbuhaler; AstraZeneca Control 1: fixed-dose fluticasone/salmeterol 25/125 µg two inhalations twice daily plus terbutaline as reliever medication Inhaler: SeretideTM/AdvairTM EvohalerTM, pressurised metered-dose inhaler (pMDI), GlaxoSmithKline Control 2: budesonide/formoterol 320/9 µg one inhalation twice daily plus terbutaline Inhaler: Turbuhaler Outcomes Primary: time to first severe exacerbation Secondary: total numbers of severe exacerbations; numbers of mild exacerbations; morning peak expiratory flow; evening peak expiratory flow; inhalations of as-needed medication; asthma symptoms; nights with awakenings caused by asthma; asthma control days; spirometry (FEV1 ); Asthma Control Questionnaire (five-item version; ACQ-5); Asthma Quality of Life Questionnaire (standardised version; AQLQ(S)); overall ICS treatment load in BDP-equivalent doses; symptom-free days; as-needed-free days Notes Funding: AstraZeneca Study number: AstraZeneca study code SD-039-0735 Definitions: severe exacerbation: deterioration in asthma resulting in hospitalisation or emergency room (ER) treatment, or the need for oral steroids for ≥ three days (as judged by the investigator). Mild exacerbation day defined as a day with any one of the following: morning PEF ≥ 20% below baseline, daily as-needed medication use ≥ two inhalations above baseline or a night with an asthma-related awakening. Mild exacerbation defined as two consecutive mild exacerbation days satisfying the same criterion Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 27 Kuna 2007 [COMPASS] (Continued) Risk of bias Bias Authors’ judgement Support for judgement Random sequence generation (selection Low risk bias) The randomisation schedule was computer generated at AstraZeneca Research and Development, Charnwood, UK Allocation concealment (selection bias) Low risk Within each centre, participants were randomly assigned strictly sequentially as they became eligible. Individual treatment codes and code envelopes (indicating the treatment allocation for each randomly assigned participant) were provided, but code envelopes were to be opened only in case of medical emergencies Blinding of participants and personnel Low risk (performance bias) All outcomes Individual treatment codes and code envelopes (indicating the treatment allocation for each randomly assigned participant) were provided, but code envelopes were to be opened only in case of medical emergencies To maintain the blinding, all participants received three inhalers. Participants were instructed to take one inhalation from the inhaler with the red grip (budesonide/formoterol or placebo Turbuhaler) and two inhalations from the pMDI (fluticasone/ salmeterol or placebo Evohaler) upon rising and before going to bed; for symptom relief, as-needed inhalations were to be taken from the inhaler with the white grip (budesonide/formoterol or terbutaline Turbuhaler) Blinding of outcome assessment (detection Unclear risk bias) All outcomes Not described Incomplete outcome data (attrition bias) All outcomes Low risk Withdrawal rates were low and even (SiT 5.0%, fluticasone/salmeterol 4.4% and budesonide/formoterol 5.3%). However, they were still higher than the event rates for some of the outcomes (SAE) Selective reporting (reporting bias) Unclear risk Could not locate protocol registration. Cannot verify that all prespecified out- Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 28 Kuna 2007 [COMPASS] (Continued) comes were measured and reported Stallberg 2008 [SHARE] Methods Design: randomised, open-label, parallel-group, multi-centre study. The first participant was enrolled on 5 April 2004, and the last participant completed the study on 12 May 2007. The trial included 222 centres. Duration of treatment was 12 months Participants Population: 1343 participants with asthma were randomly assigned to SiT (887) and budesonide/formoterol (456) Inclusion criteria: outpatients of either sex aged > 12 years with an asthma diagnosis according to the American Thoracic Society definition, with regular daily inhaled GCS (of any brand) ≥ 400 µg during the last 30 days before randomisation and either daily maintenance treatment with a free combination of both inhaled GCS and LABA or daily treatment with inhaled GCS alone and suboptimal asthma control manifested by current asthma symptoms and/or use of ≥ three inhalations/wk of as-needed medication (for symptom relief or prevention of symptoms), as judged by the investigator Exclusion criteria: Study exclusion criteria included treatment with a fixed combination of budesonide/formoterol or fluticasone/salmeterol in the year preceding randomisation. Participants using oral corticosteroids within the 30 days before randomisation, those with a smoking history of > 10 pack-years and individuals with any disease or disorder that may be affected by study medication were also excluded from the study Interventions Run-in: no run-in details given SiT: Symbicort (budesonide/formoterol 160/4.5 µg) or Symbicort Mite (budesonide/ formoterol 80/4.5 µg) one inhalation twice daily or two inhalations once daily plus Symbicort as needed (budesonide/formoterol 160/4.5 µg or budesonide/formoterol 80/ 4.5 µg) Inhaler: Turbuhaler Control: Symbicort (budesonide/formoterol 160/4.5 µg) or Symbicort Mite (budesonide/formoterol 80/4.5 µg) two inhalations twice daily plus Bricanyl as needed (terbutaline 0.25 or 0.5 mg) Inhaler: Turbuhaler Outcomes Primary: direct asthma-related costs (i.e. sum of asthma medication and direct nonmedication resource use) Secondary:health economics: direct asthma-related costs; indirect asthma-related resource use (number of days absent from work (for the participant) due to asthma; number of days absent from work for assistant person due to participant’s asthma (caregiver cost)); total costs including direct and indirect costs Participant-reported outcomes: EQ-5D; participant WTP; ACQ; participant rating of asthma symptoms; participant rating of asthma status; participant-reported compliance Efficacy: number of participants with an asthma exacerbation; number of treatment failures; sick-leave Safety: SAE; DAE Notes Funding: AstraZeneca Study number: AstraZeneca study code D5890L00001, clinicaltrials.gov study code NCT00259766 Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 29 Stallberg 2008 [SHARE] (Continued) Definitions: severe exacerbation not defined Risk of bias Bias Authors’ judgement Support for judgement Random sequence generation (selection Low risk bias) The randomisation scheme was computer generated at AstraZeneca Research and Development, Alderley Park, UK. Participants randomly assigned to receive any treatment including budesonide/formoterol were stratified according to baseline ICS dose. Those previously treated with ICS 400 to 500 mg/d were allocated to treatment with the budesonide/formoterol Turbuhaler (80/4.5 mg delivered dose), and those previously treated with ICS > 500 mg/d were allocated to the budesonide/formoterol Turbuhaler (160/4.5 mg delivered dose) Allocation concealment (selection bias) At each centre, participants were randomly assigned strictly sequentially as they became eligible. Coded envelopes with individual treatment codes stating the treatment allocation for each randomly assigned participant were provided Low risk Blinding of participants and personnel High risk (performance bias) All outcomes Open label Blinding of outcome assessment (detection Unclear risk bias) All outcomes Not described Incomplete outcome data (attrition bias) All outcomes Low risk Withdrawal rates were relatively even (11. 0% in the SiT one group, 12.9% in the SiT two group, and 13.2% in the budesonide/ formoterol group). Rates were higher or of similar magnitude to those of several of the outcomes Selective reporting (reporting bias) High risk Checked report against protocol. All prespecified outcomes were reported (cost related), but key efficacy outcomes were missed or were not reported in a format that could be included in the meta-analysis Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 30 Vogelmeier 2005 [COSMOS] Methods Design: randomised, open-label, parallel-group study. The trial included 246 centres in 16 countries. Duration of treatment was 12 months Participants Population: 2143 participants with asthma (as defined by the American Thoracic Society) were randomly assigned to SiT (1067) or fluticasone/salmeterol (1076) Inclusion criteria: Outpatients aged ≥ 12 years with a diagnosis of asthma for ≥ six months were eligible for inclusion in the study if they had used ≥ 500 µg/d of budesonide or fluticasone (or ≥ 1000 µg of another ICS) for at least one month before study entry. Participants were enrolled if they had a preterbutaline FEV1 40% to 90% of predicted and at least one severe exacerbation > two weeks but ≤ 12 months before study entry. To be eligible for randomisation, participants had to have used asneeded medication on ≥ four of the last seven days of run-in Exclusion criteria: use of budesonide/formoterol or fluticasone/salmeterol during the last three months excluded patients from the study Interventions Run-in: Twi-week run-in period, during which participants used their existing ICS (and LABA, if appropriate) and as-needed medication Intervention: budesonide/formoterol 160/4.5 µg two inhalations twice a day plus additional inhalations as needed Inhaler: Turbuhaler; AstraZeneca SiT: The starting maintenance doses for each combination were selected to reflect a moderate dose of ICS in both groups, in accordance with GINA guidelines. From week four onwards, treatment in both groups was assessed by physicians (at scheduled clinic visits or at unscheduled contacts). In accordance with normal clinical practice, maintenance treatment was titrated up or down to improve control or to attain the lowest dose at which effective control of symptoms was maintained to minimise drug load Control: fluticasone/salmeterol 50/250 µg twice a day plus salbutamol for rescue medication Inhaler: Seretide Diskus (GlaxoSmithKline); and dry-powder inhaler or pressurised metered-dose inhaler (VentolinH; GlaxoSmithKline) Control limb dose adjustment schedule: In the fluticasone/salmeterol group, downwards titration from 50/250 µg twice a day to 50/100 µg twice a day was allowed. Furthermore, in this group, physicians had the additional option to step up treatment to a high maintenance dose of fluticasone/salmeterol 50/500 µg twice a day Outcomes Primary: time to first severe exacerbation Secondary: total number of severe exacerbations; number of days with exacerbations; days with oral steroids due to exacerbations; predose FEV1 ; postdose FEV1 ; maintenance medication use; as-needed medication use; symptoms (ACQ-5); quality of life (AQLQ (S)) Notes Funding: AstraZeneca Study number: AstraZeneca study code SD-039-0691 Definitions: A severe exacerbation was defined as a deterioration in asthma resulting in hospitalisation/emergency room (ER) treatment, oral steroids for ≥ three days or an unscheduled visit (i.e. participant initiated) leading to treatment change Risk of bias Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 31 Vogelmeier 2005 [COSMOS] (Continued) Bias Authors’ judgement Support for judgement Random sequence generation (selection Low risk bias) Participants were randomly assigned in chronological order at each centre according to a computer-generated code, and treatment was communicated via an interactive voice response system Allocation concealment (selection bias) Participants were randomly assigned in chronological order at each centre according to a computer-generated code, and treatment was communicated via an interactive voice response system. Each centre was provided with numbered and sealed randomisation envelopes by AstraZeneca (information provided by AZ) Low risk Blinding of participants and personnel High risk (performance bias) All outcomes The study was run open label, enabling the appropriate maintenance doses of the combinations to be titrated up or down following any scheduled or unscheduled clinic contact Blinding of outcome assessment (detection High risk bias) All outcomes The study was run open label, enabling the appropriate maintenance doses of the combinations to be titrated up or down following any scheduled or unscheduled clinic contact Incomplete outcome data (attrition bias) All outcomes Low risk Withdrawal rates were relatively even (11% SiT, 14% fluticasone/salmeterol). The rates were higher or of similar magnitude to those of several of the outcomes. Intent-totreat population was used for all analyses Selective reporting (reporting bias) High risk Could not locate protocol registration. Many variables are emphasised only as a cost-effective analysis, and raw data on rates are presented as graphs or are not reported (e.g. days of asthma control, estimates of effect) Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 32 Characteristics of excluded studies [ordered by study ID] Study Reason for exclusion AstraZeneca 2005 SiT versus usual care AstraZeneca 2006 SiT versus usual care Atienza 2013 Fixed-dose maintenance treatment in the control group was not given at a higher dose than the maintenance dose in the intervention group Balanzat 2004 Pooled data from three RCTs D589LC00001 2011 [SAKURA] Fixed-dose maintenance treatment in the control group was not given at a higher dose than the maintenance dose in the intervention group Ghosh 1998 SiT versus usual care Haughney 2009 High- versus low-dose SiT Loukides 2005 SiT versus budesonide and formoterol in separate inhalers Lundborg 2006 LABA rather than SABA as reliever medication O’Byrne 2005 [STAY] Fixed-dose maintenance treatment in the control group was not given at a higher dose than the maintenance dose in the intervention group Rabe 2006 [SMILE] Fixed-dose maintenance treatment in the control group was not given at a higher dose than the maintenance dose in the intervention group Riemersma 2008 SiT versus usual care Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 33 DATA AND ANALYSES Comparison 1. SiT versus higher-dose ICS/LABA + SABA Outcome or subgroup title 1 Participants with exacerbations requiring oral steroids 1.1 SiT versus higher flut/salm 1.2 SiT versus higher bud/ form 2 Participants with serious adverse events 2.1 SiT versus higher flut/salm 2.2 SiT versus higher bud/ form 3 Participants with severe exacerbations (hospitalisation or ER visit) 3.1 SiT versus higher flut/salm 3.2 SiT versus higher bud/ form 4 Morning PEF (L/min) 4.1 SiT versus higher flut/salm 4.2 SiT versus higher bud/ form 5 Evening PEF (L/min) 5.1 SiT versus higher flut/salm 5.2 SiT versus higher bud/ form 6 FEV1 predose (mL) 6.1 SiT versus higher flut/salm 6.2 SiT versus higher bud/ form 7 Rescue medication puffs required per day 7.1 SiT versus higher flut/salm 7.2 SiT versus higher bud/ form 8 Symptoms (ACQ-5) 8.1 SiT versus higher flut/salm 9 Symptom-free days (%) 9.1 SiT versus higher flut/salm 9.2 SiT versus higher bud/ form 10 Nocturnal awakenings (%) 10.1 SiT versus higher flut/ salm No. of studies No. of participants 4 9096 Odds Ratio (M-H, Fixed, 95% CI) 0.75 [0.65, 0.87] 3 2 6110 2986 Odds Ratio (M-H, Fixed, 95% CI) Odds Ratio (M-H, Fixed, 95% CI) 0.77 [0.65, 0.92] 0.68 [0.51, 0.91] 4 9130 Odds Ratio (M-H, Fixed, 95% CI) 0.92 [0.74, 1.13] 3 2 6128 3002 Odds Ratio (M-H, Fixed, 95% CI) Odds Ratio (M-H, Fixed, 95% CI) 0.92 [0.73, 1.17] 0.89 [0.58, 1.37] 3 7768 Odds Ratio (M-H, Fixed, 95% CI) 0.72 [0.57, 0.90] 3 1 6118 1650 Odds Ratio (M-H, Fixed, 95% CI) Odds Ratio (M-H, Fixed, 95% CI) 0.67 [0.51, 0.86] 0.96 [0.58, 1.57] 2 2 1 5624 3965 1659 Mean Difference (Fixed, 95% CI) Mean Difference (Fixed, 95% CI) Mean Difference (Fixed, 95% CI) -1.46 [-3.85, 0.94] -1.74 [-4.55, 1.06] -0.7 [-5.29, 3.89] 2 2 1 5624 3965 1659 Mean Difference (Fixed, 95% CI) Mean Difference (Fixed, 95% CI) Mean Difference (Fixed, 95% CI) 0.11 [-2.24, 2.46] 0.38 [-2.39, 3.15] -0.6 [-5.06, 3.86] 3 2 2 7566 3819 3747 Mean Difference (Fixed, 95% CI) Mean Difference (Fixed, 95% CI) Mean Difference (Fixed, 95% CI) 19.35 [2.72, 35.98] 20.06 [-4.42, 44.54] 18.75 [-3.91, 41.41] 3 7725 Mean Difference (Random, 95% CI) -0.09 [-0.27, 0.09] 3 1 6066 1659 Mean Difference (Random, 95% CI) Mean Difference (Random, 95% CI) -0.11 [-0.35, 0.13] -0.03 [-0.15, 0.09] 2 2 2 2 1 4432 4432 5644 3985 1659 Mean Difference (Fixed, 95% CI) Mean Difference (Fixed, 95% CI) Mean Difference (Fixed, 95% CI) Mean Difference (Fixed, 95% CI) Mean Difference (Fixed, 95% CI) -0.04 [-0.07, 0.00] -0.04 [-0.07, 0.00] -1.16 [-2.99, 0.68] -1.30 [-3.47, 0.87] -0.80 [-4.23, 2.63] 2 2 5624 3965 Mean Difference (Fixed, 95% CI) Mean Difference (Fixed, 95% CI) -1.08 [-2.13, -0.03] -1.11 [-2.34, 0.11] Statistical method Effect size Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 34 10.2 SiT versus higher bud/ form 11 Quality of life AQLQ(S) 11.1 SiT versus higher flut/ salm 1 1659 1 1 Mean Difference (Fixed, 95% CI) -1.0 [-3.02, 1.02] Mean Difference (Fixed, 95% CI) Mean Difference (Fixed, 95% CI) Totals not selected 0.0 [0.0, 0.0] Comparison 2. (Sensitivity analysis - Baseline severity) Outcome or subgroup title 1 Participants with exacerbations requiring oral steroids 1.1 SiT versus higher flut/salm 1.2 SiT versus higher bud/ form 2 Participants with serious adverse events 2.1 SiT versus higher flut/salm 2.2 SiT versus higher bud/ form 3 Participants with severe exacerbations (hospitalisation or ER visit) 3.1 SiT versus higher flut/salm 3.2 SiT versus higher bud/ form No. of studies No. of participants 3 7760 Odds Ratio (M-H, Fixed, 95% CI) 0.75 [0.64, 0.88] 3 1 6110 1650 Odds Ratio (M-H, Fixed, 95% CI) Odds Ratio (M-H, Fixed, 95% CI) 0.77 [0.65, 0.92] 0.64 [0.43, 0.95] 3 7787 Odds Ratio (M-H, Fixed, 95% CI) 0.91 [0.73, 1.13] 3 1 6128 1659 Odds Ratio (M-H, Fixed, 95% CI) Odds Ratio (M-H, Fixed, 95% CI) 0.92 [0.73, 1.17] 0.81 [0.45, 1.47] 3 7768 Odds Ratio (M-H, Fixed, 95% CI) 0.72 [0.57, 0.90] 3 1 6118 1650 Odds Ratio (M-H, Fixed, 95% CI) Odds Ratio (M-H, Fixed, 95% CI) 0.67 [0.51, 0.86] 0.96 [0.58, 1.57] Statistical method Effect size Comparison 3. (Sensitivity analysis - Blinding) Outcome or subgroup title 1 Participants with exacerbations requiring oral steroids 1.1 SiT versus higher flut/salm 1.2 SiT versus higher bud/ form 2 Participants with serious adverse events 2.1 SiT versus higher flut/salm 2.2 SiT versus higher bud/ form 3 Participants with severe exacerbations (hospitalisation or ER visit) 3.1 SiT versus higher flut/salm No. of studies No. of participants 2 5625 Odds Ratio (M-H, Fixed, 95% CI) 0.72 [0.59, 0.88] 2 1 3975 1650 Odds Ratio (M-H, Fixed, 95% CI) Odds Ratio (M-H, Fixed, 95% CI) 0.75 [0.59, 0.94] 0.64 [0.43, 0.95] 2 5644 Odds Ratio (M-H, Fixed, 95% CI) 0.93 [0.68, 1.27] 2 1 3985 1659 Odds Ratio (M-H, Fixed, 95% CI) Odds Ratio (M-H, Fixed, 95% CI) 0.98 [0.67, 1.42] 0.81 [0.45, 1.47] 2 5625 Odds Ratio (M-H, Fixed, 95% CI) 0.73 [0.56, 0.96] 2 3975 Odds Ratio (M-H, Fixed, 95% CI) 0.66 [0.49, 0.91] Statistical method Effect size Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 35 3.2 SiT versus higher bud/ form 1 1650 Odds Ratio (M-H, Fixed, 95% CI) 0.96 [0.58, 1.57] ADDITIONAL TABLES Table 1. Summary of study characteristics Study ID Treatment Mean age Age range % Male FEV1 % predicted Mean baseline daily ICS (BDP) Bousquet 2007 [AHEAD] 1) SiT 2) Flut/salm 40 39 12-80 38 38 70 (range 45 to 144) 71 (range 45 to 222) 705 (range 250 to 1600) 720 (range 200 to 2000) Kuna 2007 1) SiT [COMPASS] 2) Flut/salm 3) Bud/form 38 (SD 17) 12+ 43 43 41 72 73 73 740 (SD 240) 744 (SD 230) 750 (SD 262) Stallberg 2008 [SHARE] 43 (SD 19) 45 (SD 19) 12-87 12-95 40 44 95 (SD 18) 97 (SD 17) 636 (SD 293) 650 (SD 315) 45 12-80 12-84 42 40 73 (range 39 to 115) 73 (range 28 to 100) 888 (range 500 to 2000) 881 (range 400 to 3000) 1) SiT 2) Bud/form Vogelmeier 2005 1) SiT [COSMOS] 2) Flut/salm Where only one line of data appears in a cell, data were not available for individual trial arms but rather for the whole study population. Table 2. Characteristics of the interventions Study ID Single-inhaler therapy (budesonide/formoterol) Comparison ICS/LABA total planned daily dose Planned daily mainte- Total ICS received per nance schedule day (mean, BDP ¯g) (with reliever dose) Planned daily mainte- Total ICS received per nance schedule day (mean, BDP ¯g) (with reliever) Bousquet [AHEAD] 2007 640/18 µg (160/4.5 as needed) 1238 Flut/salm 1000/100 µg (terbutaline) 2000 Kuna [COMPASS] 2007 320/9 µg (160/4.5 as needed) 755 Flut/salm 500/100 µg (terbutaline) 1000 Bud/form 640/18 µg (terbutaline) 1000 Stallberg 2008 [SHARE] 320/9 or 160/9 µg based 454 on previous ICS use Bud/form 640/18 or 574 320/18 µg Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 36 Table 2. Characteristics of the interventions (Continued) (160/4.5 or 80/4.5 as needed) Vogelmeier [COSMOS] 2005 640/18 µg (160/4.5 as needed) (terbutaline) 1019 Flut/salm 500/100 µg (salbutamol) 1166 WHAT’S NEW Last assessed as up-to-date: 19 November 2013. Date Event Description 17 December 2013 Amended Typo in search date in abstract and main text corrected CONTRIBUTIONS OF AUTHORS Charlotta Karner, Giovanni Ferrara and Stephanie Mindus screened references for inclusion and extracted data, and Charlotta entered data for analysis. Kayleigh Kew analysed and wrote up the results and constructed figures. Kayleigh wrote the discussion, the abstract and the plain language summary, with input from Giovanni. DECLARATIONS OF INTEREST None known. SOURCES OF SUPPORT Internal sources • St George’s University of London, UK. External sources • NIHR Programme Grant, UK. Financial support Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 37 DIFFERENCES BETWEEN PROTOCOL AND REVIEW Because only four studies were included and one population appeared to be less severe than the others, we chose to perform a sensitivity analysis rather than to prepare subgroups of results by baseline severity. We did not perform sensitivity analysis based on fixed/random effects because of the small number of studies. We changed the wording around the control group to better explain our original intention. We chose to not contact trial authors to enquire about ongoing or unpublished studies available for assessment and instead contacted the funding drug company directly. To comply with MECIR standards, we constructed a Summary of findings table for the primary outcomes. Combination formoterol and budesonide as maintenance and reliever therapy versus combination inhaler maintenance for chronic asthma in adults and children (Review) Copyright © 2013 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd. 38