During the previous phases of the project (Phase I and II), two new field tests have been designed and validated for an integration in a primary care setting in Chronic Obstructive Pulmonary Disease (COPD). These new field tests are 3-min paced-walk test (3MPWT) and 3-min paced step test (3MPST). If the validity and sensitivity of the TM3 could be highlighted, particularly by the reduction of dyspnea level following bronchodilatation, Phase II highlight that the 3MPST does not allow to detect this decrease of dyspnea after bronchodilatation. The use of too high step rates could explain these results through a hypothesis relative to neuromechanical coupling of dyspnea. The main objective of this trial is to follow the investigations on the sensitivity of 3MPST to detect the effects of pharmacological intervention on the exertional dyspnea in COPD patient. The hypothesis of this work is that the use of lower step rates cadences could allow to detect an improvement of exertional dyspnea following treatment-induced bronchodilatation, contrary to higher step rates.
For this project, 40 patients with COPD will be recruited in 2 centres (in the Institute of Cardiology and Pneumology of Quebec and in the Chest Institute of Montreal). For each patient, three visits will be performed. During the first visit, baseline pulmonary function and maximal exercise capacity will be evaluated and the patients will be familiarized with step test proceedings. Between the different visits, a 3-7 days period will be respected. During the second and the third visits, 4 step tests will be performed at 4 different rates, following one of the two conditions (placebo or bronchodilatation). This project will propose two randomization levels. The first randomization will be relative to the choice of the condition used during the second visit (placebo ou bronchodilatation) and the second one for the rates order (14, 16, 20, 24 steps/min). During each performed exercise, cardiorespiratory and pulmonary parameters will be measured using a portable system.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
DIAGNOSTIC
Masking
DOUBLE
Enrollment
40
For the visit 2, COPD patients will be randomly assigned a combination of ipratropium/salbutamol or a placebo in a double-blind crossover design. For the visit 3, the other intervention drug will be assigned. The bronchodilation obtained with the medication will allow to determine if the 3-min step test is sensitive by detecting an improvement of exertional dyspnea following bronchodilation.
Montreal Chest Institute - McGill University
Montreal, Quebec, Canada
RECRUITINGInstitut Universitaire de Cardiologie et de Pneumologie de Québec - Université Laval
Québec, Quebec, Canada
ACTIVE_NOT_RECRUITINGSymptom perception
Patients will be asked to score their dyspnea and leg discomfort perception using a 10-point Borg scale.
Time frame: change from baseline in Borg Scale at 3 min of exercise
Cardiac and ventilatory outcomes
Metabolic, cardiac and ventilatory parameters will be measured using a metabolic cart. Principal outcomes will be oxygen uptake (VO2), carbon dioxide output (VCO2), ventilation (VE), breathing frequency (BF), tidal volume (Vt) and heart rate (HR).
Time frame: Change from baseline at 3 minutes of exercise
Inspiratory capacity
Inspiratory capacity will be measured at rest and at the end of the 3-min step test (immediately following the assessment of dyspnea at 3 minutes).
Time frame: Change from baseline at the end of the exercise.
Respiratory pressures and diaphragm EMG
Tidal excursion in pleural pressure will be measured using an oesophageal balloon-catheter system that will be positioned using standardized technique (n=40). Gastric and transdiaphragmatic pressures as well as the diaphragm electromyogram will be recorded in the 20 subjects studied at McGill University using a multipair esophageal electrode-balloon catheter.
Time frame: Change from baseline at 1, 2 and 3 minutes of exercise
Pulmonary function
Pulmonary function will be measured by spirometry and plethysmography in the initial visit. In the subsequent visits, pulmonary function will be evaluated by spirometry before and 60-min after the nebulization of either placebo or bronchodilator.
Time frame: At baseline and 60-min after the nebulization of either placebo and bronchodilator
Maximal oxygen consumption
Exercise capacity will be directly assessed following an incremental cycle exercise test. The exercise capacity was defined as the maximal oxygen consumption (VO2 peak, ml/kg/min) by direct measurements of gas exchanges.
Time frame: Change from baseline at 1, 2 and 3 minutes of exercise
Maximal inspiratory pressure (PImax)
The maximum inspiratory pressure (PImax) will be measured during a sniff manoeuvre. These measurements will allow to construct the ratio of respiratory effort (tidal Pes/PImax) to thoracic displacement (VT/predicted VC), an index of neuromechanical coupling
Time frame: Change from baseline after 3 minutes of exercise
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