BEAT_DB: Breathing Exercises in Asthma Targeting Dysfunctional Breathing

Study Description

Brief Summary

Dyspnoe can disable patients with asthma. Dysfunctional breathing (DB), resulting in dyspnoe, can mimic or exaggerate asthma. Around every forth patient with asthma have DB. Breathing exercises (BrEX) can improve asthma-related quality of live (QOL) in less severe asthma. No study has investigated the effect of BrEX on QOL neither on level of physical activity in severe asthma.

A randomised controlled multicentre trial will include 190 adults with poor asthma control (Asthma Control Questionnaire (ACQ6)-score≥0.8) from seven outpatient departments and one specialized private clinic. Patients will be allocated to either usual care (no intervention) or breathing exercises (BrEX)-treatment consisting of 12-week intervention including three physiotherapist-sessions focusing on breathing pattern modification (Papworth Method; Buteyko technique) in rest and activity and 10 minutes home-exercise twice daily. Primary outcome is change in Mini Asthma Quality of Life Questionnaire (MiniAQLQ) at six-months follow-up.

Detailed Description

In Denmark around 300,000 suffer from asthma. Dyspnoe can disable patients with asthma. Dysfunctional breathing (DB), resulting in dyspnoe, can mimic or exaggerate asthma. Around 20-29% of asthmatic patients have DB. Breathing exercises (BrEX) can improve asthma-related quality of life (QOL) and control of asthma symptoms in less severe asthma. No study has investigated the effect of BrEX on QOL neither on level of physical activity in severe asthma.

A randomised controlled multicentre trial will include 190 adults with poor asthma control (Asthma Control Questionnaire (ACQ6)-score≥0.8) from seven outpatient departments and one specialized private clinic. After optimizing of inhalation technique, patients will be allocated to either usual care (no intervention) or BrEX-treatment consisting of 12-week intervention including three physiotherapist-sessions focusing on breathing pattern modification (Papworth Method; Buteyko technique) in rest and activity and 10 minutes home-exercise twice daily. Primary outcome is change in Mini Asthma Quality of Life Questionnaire (MiniAQLQ) at six-months follow-up. Secondary outcomes are changes in ACQ6, Nijmegen Hyperventilation Questionnaire (NQ), Hospital Anxiety and Depression Scale (HAD), accelerometry (physical activity level, number of steps), 6 minutes walk distance, and forced expiratory volume in first second (FEV1), besides response of Global perceived effect rate (GPE) in asthma-related QOL and asthma control.

Study Design

Outcome Measures

Primary Outcome Measures

1. Mini Asthma Quality of Life Questionnaire (MiniAQLQ) [Primary endpoint: Change from baseline to 6 months follow up. Secondary endpoints will be 3 and 12 months follow up.]

   MiniAQLQ is a disease-specific patient-reported outcome on experiences during the previous two weeks. The original version of AQLQ (32 items) is recommended for clinical use, whereas this shortened version is suggested for research. In moderate to severe asthma cohorts, MiniAQLQ has good reliability (ICC 0.83-0.86) and strong validity (criteria validity to AQLQ, r≥0.80; construct validity against ACQ, r=0.69). MiniAQLQ has 15 items in four domains (symptoms, activity limitation, emotions, environment), which are answered using a 7-point Likert scale (1=maximum impairment; 7=no impairment).

Secondary Outcome Measures

1. Asthma Control Questionnaire (ACQ6) [Change from baseline to 3, 6, and 12 months follow up]

   Asthma Control Questionnaire (ACQ6) will be used in the 6 sub-score version omitting FEV1 % of predicted. The outcome-score is the mean of 6 sub-scores (5 questions about symptoms, 1 question in use of reliever medication (beta2-agonist)) using a 7-point Likert scale (0=fully controlled; 6=severely uncontrolled)

2. Nijmegen Questionnaire (NQ) [Change from baseline to 3, 6, and 12 months follow up]

   A Nijmegen Questionnaire (NQ)-score > 23 suggests symptomatic hyperventilation, but is typically used to define DB.

3. Hospital Anxiety and Depression Scale (HAD) [Change from baseline to 3, 6, and 12 months follow up]

   Hospital Anxiety and Depression Scale (HAD) uses a 0-21 scale; a low score indicates least mental health problems.

4. Global perceived effect rate (GPE) [At 3, 6, and 12 months follow up]

   Global perceived effect rate (GPE) will be used as a retrospective evaluation of effect in asthma-related QOL as well as in asthma control on a 7-point Likert scale. GPE will only be measured at the follow ups.

5. Accelerometry (PAL, number of steps) [Change from baseline to 3 and 6 months follow up.]

   Physical activity level (PAL) and numbers of steps will be measured by an accelerometer (BodyMedia SenseWear®) monitoring during 5 days

6. Spirometry (FEV1) [Change from baseline to 6 months follow up.]

   Spirometry (MedikroPro) will be used to measure forced expiratory volume in first second in liter (FEV1).

7. 6 Minutes Walk Distance (6MWD) [Change from baseline to 6 months follow up.]

   6 Minutes Walk Distance (6MWD); 6MWD is the most typically used function-score in pulmonary research.

Other Outcome Measures

1. Accelerometry (METs, TEE) [Change from baseline to 3 and 6 months follow up.]

   Average metabolic equivalents (METs) and Total energy expenditure (TEE) will be measured by an accelerometer (BodyMedia SenseWear®) monitoring during 5 days.

2. Spirometry (FVC, PEF) [Change from baseline to 6 months follow up.]

   Spirometry (MedikroPro) will be used to measure forced vital capacity (FVC), units liter, and peak expiratory flow rate (PEF), units liter/minute.

3. Inspiratory muscle strength (MIP) [Change from baseline to 6 months follow up.]

   Inspiratory muscle strength (MIP), units cmH2O, will be measured by POWER Breathe®, KH2.

4. Adverse events (AE) [12 months before baseline until 12 months follow-up.]

   Adverse events (AE) e.g. emergency room visits will be extracted from medical report and from EasyTrial.Net (research database)

5. Register data from medical report [12 months before baseline until 12 months follow-up.]

   Comorbidity (types and numbers) and number of consultations at nurse and/or pulmonologist.

6. Register of Medical Product Statistics [12 months before baseline until 12 months follow-up.]

   For precise measure extraction of prescriptions on anti-asthmatic medication and comorbid medication on ATC-codes.

7. Foster Score [Change from inhalationcheck (before baseline) to 6 months follow up.]

   Foster Score is used to investigate the number of days during the last seven days the participant took his/her asthma medication as prescribed. The participant is interviewed at the inhalationcheck, and will answer 0 to 7 referring to the number of days. Assessed again at 6 months follow up by questionnaire.

8. Adherence to physiotherapy-sessions [At 12 months follow-up.]

   Adherence to the physiotherapist-sessions during the 12 weeks intervention will be investigated though data extracted in the electronically medical records.

9. Patient Acceptable Symptom State (PASS) [At 3, 6, and 12 months follow up.]

   The dichotomous Patient Acceptable Symptom State (PASS) evaluates treatment success in the patient's perspective. The PASS will only be measured at the follow ups.

10. Participant-reported treatment failure. [At 3, 6, and 12 months follow up.]

    If the participant answers 'no' to Patient Acceptable Symptom State (PASS) he/she will be asked to consider whether the treatment has failed.

11. Breath Holding Time (BHT) [Change from baseline to 6 months follow up.]

    Time in seconds when nose is pinched at functional residual capasity until first respiratory muscle movement.

12. Count Scale (CS) [Change from baseline to 6 months follow up.]

    Count Scale (CS) includes the count scale number (starting from 1 counting to as high as possible) and time spent while counting at a constant speed of 2 counts per second during one exhalation from max inspiratory level. CS has lower coefficient of variance at lower exercise level, than Borg Scale.

13. Borg CR10 [Change from baseline to 6 months follow up.]

    Dyspnoe will be measured before and after 6MWD by the Borg CR10.

14. EuroQual-5Dimension (EQ-5D) [Change from baseline to 3, 6, and 12 months follow up.]

    EuroQual-5Dimension (EQ-5D), a generic QOL tool that has high responsiveness, is translated into Danish and cross-cultural validated. EQ-5D index score of has been derived in the Danish population.

15. Socio Economic Status (SES) [Only assessed at baseline.]

    Socio Economic Status (SES) includes education, work status, income.

16. Gender, Body Mass Index, smoking status, age [Only assessed at baseline.]

    Participants gender, Body Mass Index (e.g., weight and height will be combined to report BMI in kg/m^2), smoking status (smoker/ former smoker/ non-smoker), and age will be self-reported at baseline.

Eligibility Criteria

Criteria

Inclusion Criteria:

• Referred from GP to a secondary, out-patient respiratory clinic for lack of asthma control

• Pulmonologist-diagnosed asthma

• ≥ 2 consultations at a pulmonologist-lead asthma clinic

• ACQ6 ≥0.8

• Able to provide written informed consent.

Exclusion Criteria:

• Trained in breathing exercises by physiotherapist last 6 months

• Aged <18

• Pregnancy

• Not able to speak, read or understand Danish

• Any severe disease as judged by the responsible physician

• Participating in another pulmonary interventional research-project.

Contacts and Locations

Locations

Sponsors and Collaborators

• Naestved Hospital
• Zealand University Hospital
• Hvidovre University Hospital
• Aalborg University Hospital
• Bispebjerg Hospital
• TrygFonden, Denmark
• Slagelse Hospital
• Region Zealand
• Association of Danish Physiotherapists
• Allergi og Lungeklinikken Helsingør
• Regionshospitalet Silkeborg
• Odense University Hospital

Investigators

• Principal Investigator: Karen H Andreasson, PT MSc, University of Southern Denmark, Dep. of Physiotherapy and Occupational Therapy, Neastved-Slagelse-Ringsted Hospitals, Region Zealand, Denmark
• Study Chair: Uffe Bødtger, MD PhD, University of Southern Denmark and Naestved Hospital
• Study Chair: Søren T Skou, PT PhD, University of Southern Denmark and Naestved-Slagelse-Ringsted Hospitals
• Study Chair: Mike Thomas, Prof MD PhD, University of Southampton and Aldermoor Health Centre, Southampton
• Study Chair: Celeste Porsbjerg, Prof MD PhD, University of Copenhagen and Bispebjerg Hospital
• Study Chair: Charlotte S Ulrik, Prof MD PhD, University of Copenhagen and Hvidovre Hospital
• Study Chair: Peder G Fabricius, MD, Universityhospital Roskilde
• Study Chair: Karin D Assing, MD, Aalborg University Hospital
• Study Chair: Kirsten E Sidenius, MD PhD, Allergi og Lungeklinikken Helsingør
• Study Chair: Charlotte Hyldgaard, MD, Diagnostisk Center, Regionshospitalet Silkeborg
• Study Chair: Hanne Madsen, MD PhD, University of Southern Denmark and Odense University Hospital

Study Documents (Full-Text)

More Information

Publications

• Andreasson KH, Skou ST, Ulrik CS, Madsen H, Sidenius K, Jacobsen JS, Assing KD, Rasmussen KB, Porsbjerg C, Thomas M, Bodtger U. Protocol for a multicentre randomised controlled trial to investigate the effect on asthma-related quality of life from breathing retraining in patients with incomplete asthma control attending specialist care in Denmark. BMJ Open. 2019 Dec 31;9(12):e032984. doi: 10.1136/bmjopen-2019-032984.