Systematic review of clinical effectiveness of pressurised metered dose inhalers versus other hand held inhaler devices for delivering beta 2 agonists bronchodilators in asthma

doi:10.1136/bmj.323.7318.901

BMJ 2001;323:901-905 ( 20 October )

Papers

Systematic review of clinical effectiveness of pressurised metered dose inhalers versus other hand held inhaler devices for delivering $beta$ ₂agonist bronchodilators in asthma

Felix S F Ram, research fellow in respiratory medicine ^a, John Wright, consultant in clinical epidemiology and public health ^a, David Brocklebank, specialist registrar in respiratory medicine ^a, John E S White, consultant chest physician ^b, on behalf of the National Health Technology Assessment Inhaler Review Group.

^a Bradford Hospitals NHS Trust, Bradford Royal Infirmary, Bradford BD9 6RJ, ^b York Health Services NHS Trust, Department of Respiratory Medicine, York District Hospital, York YO3 7HE

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

Abstract

Top
Abstract
Introduction
Methods
Results
Discussion
References

Objectives: To determine the clinical effectiveness ofpressurised metered dose inhalers compared with other hand heldinhaler devices for delivering short acting $beta$ ₂ agonists in stableasthma.
Design: Systematic review of randomised controlledtrials.
Data sources: Cochrane Airways Group specialised trialsdatabase (which includes hand searching of 20 relevant journals),Medline, Embase, Cochrane controlled clinical trials register,pharmaceutical companies, and bibliographies of includedtrials.
Trials: All trials in children or adults with stableasthma that compared the pressurised metered dose inhaler (withor without a spacer device) against any other hand held inhalerdevice containing the same $beta$ ₂agonist.
Results: 84 randomised controlled trials were included.No differences were found between the pressurised metered doseinhaler and any other hand held inhaler device for lung function,blood pressure, symptoms, bronchial hyperreactivity, systemicbioavailability, inhaled steroid requirement, serum potassiumconcentration, and use of additional relief bronchodilators. Inadults, pulse rate was lower in those using the pressurised metereddose inhaler compared with those using Turbohaler (standardisedmean difference 0.44, 95% confidence interval 0.05 to 0.84); patientspreferred the pressurised metered dose inhaler to the Rotahaler(relative risk 0.53, 95% confidence interval 0.36 to 0.78); hydrofluoroalkanepressurised metered dose inhalers reduced the requirement forrescue short course oral steroids (relative risk 0.67, 0.49 to0.91).
Conclusions: No evidence was found to show that alternativeinhaler devices are more effective than standard pressurised metereddose inhalers for delivering acting $beta$ ₂agonist bronchodilatorsin asthma. Pressurised metered dose inhalers remain the most costeffective deliverydevices.

What is already known on this topic
Many different inhaler devices are available for administration of short acting $beta$ ₂ agonists in asthma

Current guidelines for their use are inconsistent and not evidence based

What this study adds
This systematic review found no evidence that alternative inhaler devices are more effective than pressurised metered dose inhalers for administering inhaled $beta$ ₂agonist bronchodilators

Pressurised metered dose inhalers (or the cheapest inhaler device) should be used as first line treatment in all patients with stable asthma who require $beta$ ₂agonists

	Introduction

Top Abstract Introduction Methods Results Discussion References

Inhalation of bronchodilators and corticosteroids is the mainstay of treatment for patients with asthma. Many inhaler devicesand drug combinations are now available, and competing promotionalclaims can confuse both prescribers and patients. The costs ofthe drug used in specific devices differs greatly, and the annualcost to the NHS for asthma drugs is over £500m.¹ National andinternational guidelines are inconsistent in their recommendationsfor prescribing inhaler devices in different age groups. ² ³ None is explicitly evidence based, and there has been no systematicreview of publishedtrials.

We conducted a systematic review to determine the clinical effectiveness of the standard chlorofluorocarbon containing pressurisedmetered dose inhaler compared with other hand held inhaler devices,including chlorofluorocarbon-free pressurised metered dose inhalersdelivering short acting $beta$ ₂ agonist bronchodilators in patientswith stableasthma.

Methods

Top
Abstract
Introduction
Methods
Results
Discussion
References

Identification and selection of trials
We identified trials published from 1966 toDecember 2000 by computerised searches of the Cochrane AirwaysGroup trials database, which includes Medline, Embase, CINAHL,and hand searching of 20 relevant journals and proceedings ofthree respiratory societies, and reviews of the bibliographiesof included trials (for details see www.ncchta.org/execsumm/summ526.htm). We also independently searched the electronic databases(Medline, Embase, and CINAHL) and 17 online respiratory websitesto decrease the chance of missing relevant trials. We includedcitations in any language. We also contacted the pharmaceuticalcompanies that manufacture inhaled asthma drugs and searched thereference lists of trials included in this review for furtherstudies.

Trial characteristics
We included only randomised controlled trialsof short acting $beta$ ₂ agonists. Trials could be laboratory, hospital,or community based. Trials were included if they compared clinicaloutcomes of a single drug delivered by standard pressurised metereddose inhalers (with or without a spacer device) against any otherhand held device. Trials that compared different doses of inhaleddrug and those that used challenge testing were also included.We included trials in both children andadults.

We looked at the following outcomes: lung function, quality of life measures, symptom scores, drugs for additional relief,steroid requirement, nocturnal awakening, acute exacerbation,days off work or school, treatment failure, patient compliance,patient preference, adverse effects, bronchial hyperreactivity,and systemic bioavailability. For trials using cumulative dosingschedules^4-16 we used data that were generated after the administrationof the last cumulativedose.

Analysis of data
We analysed the data using Review Manager(version 4.1.1) statistical software.¹⁷ For the meta-analysis,we used weighted mean differences for measures on the same scales(for example, forced expiratory volume in one second) or standardisedmean differences for outcomes that used different scales (forexample,symptoms).

The pressurised metered dose inhaler was compared with each of the different hand held inhaler devices. Each of these devicecomparisons was further separated into the different trial designs,duration, and the method of reporting (mean absolute values, percentagechange from baseline, and absolute change from baseline). Trialswere analysed separately for children andadults.

Twenty trials that examined pulmonary function variables early (15-45 minutes) rather than late (hours) after administrationof bronchodilator were reported separately. This is because theearly and late effects of $beta$ ₂ bronchodilators may be different,especially as these compounds have a short half life and shortduration ofeffect.

We tested heterogeneity between trials, using $chi$ ² tests. As long as statistical heterogeneity did not exist, we used a fixedeffects model to calculate summary results and 95% confidenceintervals. If heterogeneity occurred, we planned subgroup analysesbeforehand to explore possible reasons for heterogeneity. Thesesubgroups included quality of the trial, severity of asthma, typeof $beta$ ₂ bronchodilator, and use of spacer device with pressurisedmetered dose inhaler. Publication or selection bias was testedby preparing funnel plots.¹⁸

	Results

Top Abstract Introduction Methods Results Discussion References

The electronic search yielded 1130 citations. Eighty nine papers provided 84 trials (see www.ncchta.org/execsumm/summ526.htmfor details) that were included in the review (fig 1), with ninetrials being duplicate publications of trials already included(see BMJ's website for details). Four of the included trials ¹⁹ ^20-22 reported more than one trial in their paper or had additionalindependent trial arms that met our inclusion criteria and weretherefore analysed as separate trials.

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Fig 1. QUORUM trial flow results

Study characteristics
There were 45 single dose trials, 16 longterm trials, and 17 cumulative dosing trials; 62 trials used acrossover design and 10 a parallel design. Six trials used differentor double dosing schedules and nine were challenge testing trials.Thirteen trials were in children. Some trials could be listedin more than onecategory.

The oldest included trial was published in 1977. The doses of $beta$ ₂ agonist used in the included trials varied widely. In 64trials of salbutamol, doses ranged from 100 µg in single dosetrials up to 4200 µg in cumulative dose trials. In 15 trials ofterbutaline, doses ranged from 0.25 mg (single dose) to 4.0 mg(cumulative dose), and in five trials of fenoterol, single dosesranged from 200 µg to 600 µg.

Seventy one trials (with 67 references) were in adults and 13 in children (see BMJ's website for details). Most trials werein patients with mild to moderate asthma, as defined by a baselineforced expiratory volume in one second >50% ofpredicted.

Data synthesis
Most of the trials were double blinded usingdouble dummy technique and most had adequate concealment of allocation.All trials were of good methodological quality with a Cochranescore above B and Jadad score greater than3.

Thresholds for clinically important results of pulmonary function tests are often arbitrary. However, from the range of valuesthat the trial researchers used, a guide would be 15-30 l/minor 7.5% to 20% for peak expiratory flow rate and 0.2 or 15% forforced expiratory volume in onesecond.

We found no significant differences in children or adults between the standard pressurised metered dose inhaler and any ofthe other 10 handheld inhaler devices (Turbohaler, Diskhaler,hydrofluoroalkane pressurised metered dose inhaler, Rotahaler,Spiros, Easyhaler, multidose powder inhaler, Clickhaler, Gentlehaler,and Autohaler) for the following outcomes: forced expiratory volumein one second, forced vital capacity, peak expiratory flow rate,area under the curve for forced expiratory volume in one second,blood pressure, symptoms, bronchial hyperreactivity, systemicbioavailability, inhaled steroid requirement, serum potassiumconcentration, and use of additional relief bronchodilators. Figure2 shows an example of the meta-analysis as Forrest plots. A completeset of Forrest plots is available on www.ncchta.org/execsumm/summ526.htm.No data were available for quality of life, patient compliance,nocturnal awakening, and days off work or school.

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Fig 2. Forced expiratory volume in one second values for patients in trials comparing pressurised metered dose inhalers with Turbohaler

Six of the trials that used a 2 to 1 or larger dosing schedule^23-28 did not show significantly different results and did notprovide results that were different from trials that used a 1to 1 dosing schedule. Tables 1 and 2 show all outcome measuresthat were significant in one or more trials (P<0.05) and did notshow any heterogeneity.

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Table 1. Significant outcomes found in more than one trial

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Table 2. Significant outcomes found in only one trial

Five studies used spacer devices with the pressurised metered dose inhalers. ³⁴ ³⁷ ^39-41 There were no differences in theresults of trials that used pressurised metered dose inhalerswith and without spacer devices compared with alternative inhalerdevices.

	Discussion

Top Abstract Introduction Methods Results Discussion References

This large review of 84 trials and 14 outcome measures found no evidence that pressurised metered dose inhalers were any lesseffective than other inhaler devices for administering short acting $beta$ ₂ agonists. The number of trials that could be combined in themeta-analysis was limited by inconsistencies in measurement andreporting of outcomes. Publication bias is a threat to the validityof most systematic reviews. However, there was no evidence offunnel plot asymmetry in any of thecomparisons.

Notable findings
Trials using 2 to 1 or greater dosing showedno clinical advantage over 1 to 1 dosing trials. Higher dosingschedules are often promoted by pharmaceutical companies to showclinical superiority of one inhaler device over another and tosupport prescribing recommendations. We found no evidence in supportof these claims. A previous review of inhaler devices that consideredthe relation between clinical efficacy and lung deposition concludedthat differences in drug deposition alone did not always explaincorresponding differences in bronchodilatory responses among inhalerdevices.⁴¹

Three trials found a higher pulse rate in patients using Turbohaler than those using a pressurised metered dose inhaler. ³⁹ ⁴² ⁴³ This would indicate greater systemic absorption with Turbohaler,although this did not translate into greater treatmenteffect.

Three trials found that adult patients preferred the pressurised metered dose inhaler to the Rotahaler.^43-45 One trial in children⁴⁶and one in adults⁴⁷ showed that patients preferred the Turbohaler.One trial showed that patients preferred the pressurised metereddose inhaler to the multidose dry powder inhaler.³² These resultsshould be viewed with caution because of the potential for biasregarding blinding of new inhaler devices in clinicaltrials.

Long term parallel trials have shown that regular daily use of hydrofluoroalkane pressurised metered dose inhalers may reducethe requirement for short course oral steroids. ⁴⁸ ⁴⁹ However,this result may be biased because of inadequate randomisationin one trial. Confirmation from further trials isrequired.

Further research
Although we did not find significant differencesfor most outcomes, the confidence intervals could include clinicallyimportant differences. Our comparison of population means cannotshow such clinically important differences for individual patientsfrom different inhaler devices. Small changes in physiologicalmeasures such as pulmonary function will not necessarily be importantin themselves, but rather in the impact they have on the symptomsand quality of life of the patient.⁵⁰

Future trials should address the paucity of patient centred outcomes such as quality of life, adherence, nocturnal awakening,and days off work or school. Further systematic reviews are neededto assess the effectiveness of pressurised metered dose inhalerswith or without spacer devices and the effectiveness of trainingand education about use of inhalerdevices.

Conclusion
We found no evidence that alternative inhalerdevices are clinically more effective than pressurised metereddose inhaler for delivery of short acting $beta$ ₂ bronchodilators.Therefore, pressurised metered dose inhalers or the cheapest inhalerdevice the patient can use adequately should be prescribed asfirst line in all patients with stable asthma requiring shortacting $beta$ ₂ agonistbronchodilators.

Acknowledgments

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

We thank the following groups and individuals for their help: Cochrane Airways Review Group staff at St George's Hospitalin London (Steve Milan, Karen Blackhall, Bettina Reuber, TobyLasserson) for identifying trials and obtaining copies of papersand Sheree Wellington for checking data abstractions and entry.We also thank all authors who provided further data from theirtrials.

Footnotes

Funding: NHS Research and Development Health Technology AssessmentProgramme.

Competing interests: Nonedeclared.

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

References

Top
Abstract
Introduction
Methods
Results
Discussion
References

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(Accepted 11 July 2001)

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1.	Neville RG, Pearson MG, Richards N, Patience J, Sondhi S, Wagstaff B, et al. A cost analysis on the pattern of asthma prescribing in the UK. Eur Respir J 1999; 14: 605-609[Medline].
2.	British Thoracic Society. British guidelines on asthma management. Thorax 1997; 52(suppl 1): S1-21.
3.	American Thoracic Society. Standards for the diagnosis and care of patients with chronic obstructive pulmonary disease. Am J Respir Crit Care Med 1995; 152: S77-120[Medline].
4.	Bondesson E, Friberg K, Soliman S, Lofdahl CG. Safety and efficacy of a high cumulative dose of salbutamol inhaled via Turbuhaler or via a pressurized metered-dose inhaler in patients with asthma. Respir Med 1998; 92: 325-330[Medline].
5.	Dirksen H, Groth S. Fenoterol inhalation powder as an alternative to treatment with the metered dose inhaler. Eur J Respir Dis 1983; 64(suppl 130): 48-53[Medline].
6.	Ekstrom T, Andersson AC, Skedinger M, Lindbladh C, Stahl E. Dose potency relationship of terbutaline inhaled via Turbuhaler or via a pressurized metered dose inhaler. Ann Allergy Asthma Immunol 1995; 74: 328-332[Medline].
7.	Haahtela T, Vidgren M, Nyberg A, Korhonen P, Laurikainen K, Silvasti M. A novel multiple dose powder inhaler. Salbutamol powder and aerosol give equal bronchodilatation with equal doses. Ann Allergy 1994; 72(2): 178-182[Medline].
8.	Hetzel MR, Clark CG. Comparison of salbutamol Rotahaler with conventional pressurized aerosol. Clin Allergy 1977; 7: 563-568[Medline].
9.	Johnsen CR, Weeke ER. Turbuhaler: a new device for dry powder terbutaline inhalation. Allergy 1988; 43: 393-395[Medline].
10.	Kleerup EC, Tashkin DP, Cline AC, Ekholm BP. Cumulative dose-response trial of non-CFC propellant HFA 134a salbutamol sulfate metered-dose inhaler in patients with asthma. Chest 1996; 109: 702-707[Abstract].
11.	Mellen A, Arvidsson P, Palmqvist M, Lotvall J. Equivalent bronchodilation with salbutamol given via pressurised metered-dose inhaler or Turbuhaler. Am J Respir Crit Care Med 1999; 159: 1663-1665[Abstract/Full Text].
12.	Morice AH, Peake MD, Allen MB, Campbell JH, Parry-Billings M. Evaluation of a novel salbutamol dry powder inhaler: clinical equivalence to a standard metered dose inhaler and in-use stability. Br J Clin Pharmacol 1996; 42: 658.
13.	Persson G, Gruvstad E, Stahl E. A new multiple dose powder inhaler (Turbuhaler) compared with a pressurized inhaler in a trial of terbutaline in asthmatics. Eur Respir J 1988; 1: 681-684[Medline].
14.	Ramsdell JW, Colice GL, Ekholm BP, Klinger NM. Cumulative dose response trial comparing HFA-134a albuterol sulfate and conventional CFC albuterol in patients with asthma. Ann Allergy Asthma Immunol 1998; 81: 593-599[Medline].
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Systematic review of clinical effectiveness of pressurised metered dose inhalers versus other hand held inhaler devices for delivering $beta$ ₂agonist bronchodilators in asthma