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Respiratory muscle training for multiple sclerosis

Abstract

Background

Multiple sclerosis (MS) is a chronic disease of the central nervous system, affecting approximately 2.5 million people worldwide. People with MS may experience limitations in muscular strength and endurance – including the respiratory muscles, affecting functional performance and exercise capacity. Respiratory muscle weakness can also lead to diminished performance on coughing, which may result in (aspiration) pneumonia or even acute ventilatory failure, complications that frequently cause death in MS. Training of the respiratory muscles might improve respiratory function and cough efficacy.

Objectives

To assess the effects of respiratory muscle training versus any other type of training or no training for respiratory muscle function, pulmonary function and clinical outcomes in people with MS.

Search methods

We searched the Trials Register of the Cochrane Multiple Sclerosis and Rare Diseases of the Central Nervous System Group (3 February 2017), which contains trials from the Cochrane Central Register of Controlled Trials (CENTRAL), MEDLINE, Embase, CINAHL, LILACS and the trial registry databases ClinicalTrials.gov and WHO International Clinical Trials Registry Platform. Two authors independently screened records yielded by the search, handsearched reference lists of review articles and primary studies, checked trial registers for protocols, and contacted experts in the field to identify further published or unpublished trials.

Selection criteria

We included randomized controlled trials (RCTs) that investigated the efficacy of respiratory muscle training versus any control in people with MS.

Data collection and analysis

One reviewer extracted study characteristics and study data from included RCTs, and two other reviewers independently cross-checked all extracted data. Two review authors independently assessed risk of bias with the Cochrane ‘Risk of bias’ assessment tool. When at least two RCTs provided data for the same type of outcome, we performed meta-analyses. We assessed the certainty of the evidence according to the GRADE approach.

Main results

We included six RCTs, comprising 195 participants with MS. Two RCTs investigated inspiratory muscle training with a threshold device; three RCTs, expiratory muscle training with a threshold device; and one RCT, regular breathing exercises. Eighteen participants (˜ 10%) dropped out; trials reported no serious adverse events.

We pooled and analyzed data of 5 trials (N=137) for both inspiratory and expiratory muscle training, using a fixed-effect model for all but one outcome. Compared to no active control, meta-analysis showed that inspiratory muscle training resulted in no significant difference in maximal inspiratory pressure (mean difference (MD) 6.50 cmH2O, 95% confidence interval (CI) −7.39 to 20.38, P = 0.36, I2 = 0%) or maximal expiratory pressure (MD −8.22 cmH2O, 95% CI −26.20 to 9.77, P = 0.37, I2 = 0%), but there was a significant benefit on the predicted maximal inspiratory pressure (MD 20.92 cmH2O, 95% CI 6.03 to 35.81, P = 0.006, I2 = 18%). Meta-analysis with a random-effects model failed to show a significant difference in predicted maximal expiratory pressure (MD 5.86 cmH2O, 95% CI −10.63 to 22.35, P = 0.49, I2 = 55%). These studies did not report outcomes for health-related quality of life.

Three RCTS compared expiratory muscle training versus no active control or sham training. Under a fixed-effect model, meta-analysis failed to show a significant difference between groups with regard to maximal expiratory pressure (MD 8.33 cmH2O, 95% CI −0.93 to 17.59, P = 0.18, I2 = 42%) or maximal inspiratory pressure (MD 3.54 cmH2O, 95% CI −5.04 to 12.12, P = 0.42, I2 = 41%). One trial assessed quality of life, finding no differences between groups.

For all predetermined secondary outcomes, such as forced expiratory volume, forced vital capacity and peak flow pooling was not possible. However, two trials on inspiratory muscle training assessed fatigue using the Fatigue Severity Scale (range of scores 0-56 ), finding no difference between groups (MD, −0.28 points, 95% CI−0.95 to 0.39, P = 0.42, I2 = 0%). Due to the low number of studies included, we could not perform cumulative meta-analysis or subgroup analyses. It was not possible to perform a meta-analysis for adverse events, no serious adverse were mentioned in any of the included trials.

The quality of evidence was low for all outcomes because of limitations in design and implementation as well as imprecision of results.

Authors’ conclusions

This review provides low-quality evidence that resistive inspiratory muscle training with a resistive threshold device is moderately effective postintervention for improving predicted maximal inspiratory pressure in people with mild to moderate MS, whereas expiratory muscle training showed no significant effects. The sustainability of the favourable effect of inspiratory muscle training is unclear, as is the impact of the observed effects on quality of life.

Plain language summary

Respiratory muscle training in multiple sclerosis

Background

Multiple sclerosis (MS) is a chronic disease of the central nervous system, affecting approximately 2.5 million people worldwide. Although the exact cause of the disease is unknown, it is generally accepted that MS involves an abnormal immune response within the central nervous system. Depending on the severity of the disease, people with MS may experience varying limitations in, for example muscular strength and endurance, including in the muscles needed to breathe (respiratory muscles). Strength of the respiratory muscles is related to people’s ability to function and to exercise, and respiratory muscle weakness can lead to less effective coughing, which may result in aspiration pneumonia (when food, saliva or other liquids are breathed into airways instead of being swallowed) or even acute failure of respiratory function. These pulmonary complications are frequently reported causes of death in people with MS. Training of the respiratory muscles might improve breathing and cough effectiveness.

Study characteristics

We searched electronic databases for randomized controlled trials (where participants are assigned at random to either a treatment or a control arm) published up to 3 February 2017 that investigated respiratory muscle training in people with MS. In addition, we contacted experts in the field to identify additional studies.

Key results

We found six trials involving 195 participants with MS. Training consisted of two or three sets of 10 to 15 repetitions, twice a day for at least three days a week, and interventions lasted for six weeks to three months. Follow-up ranged from no follow-up to six months. Two of the included trials investigated inspiratory muscle training with a threshold device (i.e. a portable breathing device that increases airflow resistance while inhaling or exhaling). Three trials investigated expiratory muscle training with a threshold device, and one trial investigated breathing exercises. We found benefits with inspiratory muscle training for improving predicted maximal inspiratory pressure, but not for improving measured maximal inspiratory pressure. We did not find any effects for maximal expiratory pressure. Only one study measured quality of life, but it did not find any effects; two trials measured fatigue and also failed to find a difference between the treatment and control groups. Eighteen participants (˜ 10%) dropped out, and no trials reported any serious adverse events.

Quality of the evidence

The six trials that were eligible for inclusion in this review were small, so statistical power was low, making analyses less precise. In addition, studies were heterogeneous in terms of the type of respiratory muscle training, dosing/intensity, and the severity of MS. In addition, we could not analyze the effects of training on, for example, cough efficacy, pneumonia, and quality of life, as the included trials did not report on these outcomes even though they are important for patients, caregivers and healthcare professionals. Altogether, this review provides low-quality evidence that resistive inspiratory muscle training improves predicted inspiratory muscle strength in people with MS. We did not find any effects for resistive expiratory muscle training. More high-quality research in respiratory muscle training in MS is needed.

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