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Systematic review of clinical effectiveness of pressurised metered dose inhalers versus other hand held inhaler devices for delivering corticosteroids in asthma

David Brocklebank, specialist registrar in respiratory medicine ^a, John Wright, consultant in clinical epidemiology and public health ^a, Christopher Cates, general practitioner ^b,  on behalf of the National Health Technology Assessment Inhaler Review Group.

^a Bradford Hospitals NHS Trust, Bradford Royal Infirmary, Bradford BD9 6RJ, ^b Manor View Practice, Bushey Health Centre, Bushey, Hertfordshire WD2 2NN

Correspondence to: J Wright john.wright{at}bradfordhospitals.nhs.uk

	Abstract

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Objective: To determine the clinical effectiveness of pressurised metered dose inhalers (with or without spacer) compared with other hand held inhaler devices for the delivery of corticosteroids in stable asthma.
Design: Systematic review of randomised controlled trials.
Data sources: Cochrane Airways Group trials database (Medline, Embase, Cochrane controlled clinical trials register, and hand searching of 18 relevant journals), pharmaceutical companies, and bibliographies of included trials.
Trials: All trials in children or adults with stable asthma that compared a pressurised metered dose inhaler with any other hand held inhaler device delivering the same inhaled corticosteroid.
Results: 24 randomised controlled trials were included. Significant differences were found for forced expiratory volume in one second, morning peak expiratory flow rate, and use of drugs for additional relief with dry powder inhalers. However, either these were within clinically equivalent limits or the differences were not apparent once baseline characteristics had been taken into account. No significant differences were found between pressurised metered dose inhalers and any other hand held inhaler device for the following outcomes: lung function, symptoms, bronchial hyper-reactivity, systemic bioavailability, and use of additional relief bronchodilators.
Conclusions: No evidence was found that alternative inhaler devices (dry powder inhalers, breath actuated pressurised metered dose inhalers, or hydrofluoroalkane pressurised metered dose inhalers) are more effective than the pressurised metered dose inhalers for delivery of inhaled corticosteroids. Pressurised metered dose inhalers remain the most cost effective first line delivery devices.

	Introduction

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Numerous inhaler devices and drug combinations are now available for delivering inhaled corticosteroids in patients with asthma. These include breath actuated pressurised metered dose inhalers, dry powder devices, and chlorofluorocarbon-free or hydrofluoroalkane pressurised metered dose inhalers. The cost of the drug used in specific devices varies widely, but there are no explicitly evidence based guidelines on which are the most effective. We conducted a systematic review to determine the clinical effectiveness of the standard chlorofluorocarbon containing pressurised metered dose inhaler versus other hand held inhaler devices in delivering corticosteroids to patients with stable asthma.

	Methods

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Identification and selection of trials
We identified trials published from 1966 to July 1999 by computerised searches of the Cochrane Airways Group trials database, which includes Medline, Embase, CINAHL, hand searching of 18 relevant journals and proceedings of three respiratory societies, and review of the bibliographies of included trials (see www.ncchta.org/execsumm/summ526.htm). We included citations in any language. We also contacted the pharmaceutical companies that manufacture inhaled asthma drugs and searched the reference lists of included trials for further studies.

We considered only randomised controlled trials in children or adults that were laboratory, hospital, or community based and lasted for four weeks or longer. Trials were included if they compared clinical outcomes of a single drug delivered by standard pressurised metered dose inhaler (with or without a spacer device) versus any other hand held inhaler device. Trials comparing different doses of the same drug were included.

We included the following outcomes: lung function, quality of life measures, symptom scores, drugs for additional relief, acute exacerbation, days off work or school, treatment failure, patient compliance, patient preference, adverse effects, bronchial hyper-reactivity, and systemic bioavailability.

Analysis of data
We analysed data using Review Manager (RevMan, Version 4.1) statistical software.¹ For the meta-analysis, we used weighted mean differences for outcomes using the same measures on continuous scales (for example, forced expiratory flow in one second) or standardised mean differences for outcomes that used different scales (for example, forced expiratory flow in one second absolute and improvement from baseline).

The pressurised metered dose inhaler was compared with each other hand held inhaler device separately. Each of these device comparisons was further separated into the different trial designsthat is, crossover and parallel. Trials were analysed separately for children and adults.

We tested for heterogeneity between trials using ² tests. If statistical heterogeneity was not found, a fixed effects model was used with 95% confidence intervals. If heterogeneity occurred, subgroup analyses were planned beforehand to explore possible reasons for heterogeneity. These subgroups included trial quality, severity of asthma, type of corticosteroid, and use of spacer device with pressurised metered dose inhaler.

	Results

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The searches yielded 790 citations. Twenty four papers, covering a total of 29 studies, were included in the review (fig 1). Full details of the included studies are available on www.ncchta.org/execsumm/summ526.htm.

View larger version (41K): [in this window] [in a new window]   Fig 1.   QUORUM trial flow results

Data synthesis
We analysed the results in three categories for adults: pressurised metered dose inhaler versus dry powder inhaler, pressurised metered dose inhaler versus hydrofluoroalkane pressurised metered dose inhaler, and pressurised metered dose inhaler versus breath actuated pressurised metered dose inhaler. A separate analysis was performed for trials in children. A complete set of Forrest plots is available on www.ncchta.org/execsumm/summ526.htm.

View this table: [in this window] [in a new window]   Table 1. Results for parallel studies comparing pressurised metered dose inhaler with dry powder inhaler. Negative values or relative risk <1 favours dry powder inhaler

Thresholds for clinically important results of pulmonary function tests are often arbitrary. However, from the range of values that the trial researchers used, a guide would be 15-30 l/min or 7.5% to 20% for peak expiratory flow rate and 0.2 litres or 15% for forced expiratory volume in one second.

Pressurised metered dose inhaler versus dry powder inhaler
Thirteen papers comparing pressurised metered dose inhalers with dry powder inhalers described 14 studies.^2-14 Fifteen outcomes were available for analysis with a range of three to 14 studies for each outcome. Only patient preference showed any evidence of heterogeneity.

We found significant differences in favour of dry powder inhaler for improving forced expiratory volume in one second, morning peak expiratory flow rate, and use of additional relief drugs in the parallel studies (table 1). No other outcomes showed significant differences (tables 1 and 2 ).

View this table: [in this window] [in a new window]   Table 2. Results of crossover studies comparing pressurised metered dose inhaler with dry powder inhaler. Negative values or relative risk <1 favours dry powder inhaler

Three studies had significant differences in baseline characteristics ^{5 9 12} for peak expiratory flow rate, forced expiratory volume in one second, symptom scores, or use of relief drugs. In one of these, the dry powder inhaler group had more severe asthma and results were presented as relative change from baseline.⁵ In the other two studies, the control group (pressurised metered dose inhaler) had more severe asthma and results were presented as absolute values. ^{9 12} The method of data analysis used in all three was potentially biased in favour of the dry powder inhaler groups.

We used two methods to explore the effect of these baseline differences. Firstly, we excluded them from the analysis. This resulted in the all treatment effects becoming non-significant. Secondly, we used the alternative presentation of resultsthat is, relative change for two ^{9 12} and absolute values for the other⁵ (using estimates based on the original data). We found no significant differences in treatment effect for comparisons of forced expiratory volume in one second, peak expiratory flow rate, or use of additional relief drugs.

Patient preference showed marked heterogeneity. This may be because different dry powder inhalers were used in the studies. Two studies used a Rotahaler, which was significantly less preferred to the pressurised metered dose inhaler, ^{3 4} and two used a Turbohaler, which was significantly preferred to pressurised metered dose inhalers. ^{6 11} No data were presented to indicate whether stated patient preference increases compliance in routine daily use.

When we analysed outcomes by type of dry powder inhaler (Rotahaler, Turbohaler, Diskhaler, and Easyhaler) we found no significant differences between pressurised metered dose inhaler and dry powder inhaler or between the dry powder inhaler groups except in the case of Diskhaler, which was significantly better (fig 2). This group, however, contained two of the trials with significant baseline differences. ^{5 9} Analysis of results for pressurised metered dose inhalers used with and without spacer devices separately did not affect the results for dry powder inhalers.

View larger version (45K): [in this window] [in a new window]   Fig 2.   Comparison of morning peak expiratory flow rate for pressurised metered dose inhalers with and without spacer versus different dry powder inhalers

Chlorofluorocarbon versus hydrofluoroalkane pressurised metered dose inhaler
Seven papers describing 11 studies were included.^15-19 Ten studies used beclometasone and one used fluticasone.¹⁹ One trial was of crossover design.¹⁵ No significant differences in treatment effect were found.

Breath actuated pressurised metered dose inhaler versus pressurised metered dose inhaler
One study comparing breath actuated inhalers with standard pressurised metered dose inhalers was identified and included.²⁰ Equivalence was shown for all outcomes measured with no significant differences between treatments.

Children
Three studies in children were identified and included.^21-23 We could not do a meta-analysis of the results because of differences in the devices and ages compared and lack of extractable data. No study showed any significant differences in pulmonary function between the devices.

	Discussion

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We found no significant differences in measures of pulmonary function, symptom scores, exacerbation rates, and adverse effects between a pressurised metered dose inhaler and other inhalers for the delivery of corticosteroids. Significant differences were found for three outcomes for dry powder inhalers. However, either these were within clinically equivalent limits or the differences were not apparent once baseline characteristics had been taken into account.

Although we found no significant differences for most outcomes in this review, the confidence intervals may include clinically important differences. Our comparison of population means cannot show such clinically important differences for individual patients from different inhaler devices. Small changes in physiological measures such as pulmonary function will not necessarily be important in themselves but rather in the effect they have on the symptoms and quality of life of the patient.²⁴

Potential biases
We found no evidence of systematic publication bias from funnel plots. The lack of any overall significant treatment effects also supports this, although it does not exclude the possibility of equivalence being positive publication bias. All of the included studies had some commercial sponsorship. Potential biases in the conduct and reporting of results are therefore important to consider.

Doses used
Inhaled corticosteroids have a shallow dose-response curve.²⁵ Dose selection for a study may affect the ability of a trial to detect differences between inhaler devices. Most asthmatic patients require relatively low doses of inhaled steroids to maintain good health (200-800 µg of beclometasone dailythat is, low to moderate doses on step 2 of the British Thoracic Society asthma guidelines).²⁶ Ten of the 20 adult studies used doses of 800 µg daily or greater (assuming fluticasone to be equivalent to twice the dose of budesonide or beclometasone). Such high doses do not reflect usual clinical practice, and using doses at the top of the dose-response curve may bias towards underestimating or missing a treatment difference.

Disease severity
The less severe the disease, the smaller are potential improvements in pulmonary function and symptoms from baseline. Patients in the studies had relatively mild disease, as shown by the low numbers of exacerbations (69 cases from 2065 patients) and very low mean symptom scores and use of additional relief drugs (usually <2 puffs/day). The mean reported forced expiratory volume in one second at baseline was 2.6 (SD 0.42) l. In seven of the 10 trials that reported severity of asthma at baseline, the grade was mild or mild to moderate. Although this probably reflects "usual" disease of the general population, it will make it harder to detect a treatment effect between inhaler devices.

Duration
Inhaled corticosteroids have a long duration of action and may take weeks or months to reach a plateau of effect. Asthma guidelines suggest titrating doses every one to three months.²⁶ The longest study lasted 12 weeks (11 studies were for four weeks). As the duration of study decreases, the risk of missing a treatment difference increases because the drug may have failed to reach its maximum effect.

Hydrofluoroalkane: chlorofluorocarbon dose ratio
The studies comparing hydrofluoroalkane and chlorofluorocarbon pressurised devices seem to have adequate design and power to show equivalence. However, when the studies were analysed in subgroups according to the dose ratio (1:1 or 1:2) no significant difference was found. Each group of studies (and subsequently marketing and prescribing recommendations) claims that its dose ratio is correct. We found no difference between the two dose ratios, but this may be related to the different delivery characteristics of the hydrofluoroalkane inhalers used.

It is important not to overinterpret this subgroup analysis because it provides only an indirect comparison. On a practical level, a generic prescription for chlorofluorocarbon-free beclometasone could be dispensed as either of two "equivalent" preparations. One will be accompanied by advice that it is twice as potent as the other. There is potential for serious confusion when transferring from chlorofluorocarbon to hydrofluoroalkane inhalers.

Unanswered questions
Further research is required in children and in devices other than dry powder inhalers. Although the primary outcome (respiratory function) may be assumed to have equivalence, adverse effects are much less well reported. As such, there is limited information on which to judge the relative benefits and side effects of different devices. Further systematic reviews are needed to assess the effectiveness of pressurised metered dose inhalers with or without spacer devices and the effectiveness of training and education about use of inhaler devices. Pragmatic studies are also required to see whether long term compliance is influenced by choice of delivery device.

In summary, we found no evidence that alternative inhaler devices are more clinically effective than pressurised metered dose inhalers for delivery of inhaled corticosteroids. Therefore, pressurised metered dose inhalers or the cheapest inhaler device that patients can use adequately should be used as first line treatment.

	Acknowledgments

This paper is based on a Cochrane review that is available in the Cochrane Library. As with all Cochrane reviews, the authors have committed to keep this review up to date.

We thank Cochrane Airways Review Group staff at St George's Hospital, London (Steve Milan, Karen Blackhall, Toby Lasserson) for help in identifying trials from the Cochrane Airways register and obtaining copies of papers and Paul Jones for editorial input. We also thank all authors who provided further data for their trials.

	Footnotes

Funding: NHS Research and Development Health Technology Assessment Programme.

Competing interests: None declared.

The full version of this paper appears on the BMJ's website

	References

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(Accepted 11 July 2001)