Chronic obstructive pulmonary disease (COPD) is a leading cause of respiratory disability and impaired quality of life, particularly due to exertional dyspnoea. In patients with moderate to severe disease, walking can trigger disabling breathlessness, effectively limiting autonomy and social participation. While pulmonary rehabilitation, pharmacological treatments, and oxygen therapy can improve exercise tolerance, some patients continue to experience debilitating limitations. Mobility aids such as scooters are sometimes proposed but carry risks of deconditioning and are not always practical or accessible.
The six-minute walk test (6MWT) is a standardised and widely used measure of submaximal functional capacity in COPD. It provides prognostic and therapeutic insights, but one parameter remains non-standardised: the type of footwear used by patients during the test. This study explores the hypothesis that biomechanically optimised "active" sports shoes-designed to enhance gait efficiency through energy-returning cushioning, curved ("rocker") soles, and stiff inserts-may significantly improve walking performance in individuals with COPD.
ChaussePnée is a randomised, open-label, controlled, cross-over trial comparing two walking conditions in the same patient: wearing "active" sports shoes versus their usual, "normal" shoes. The primary objective is to detect a difference in walking distance during the 6MWT between the two conditions. Secondary objectives include assessments of symptom tolerance (dyspnoea, leg fatigue), physiological responses (heart rate, oxygen saturation), perceived comfort, and biomechanical efficiency during walking and stair climbing.
Patients will be recruited during hospitalisation in a respiratory rehabilitation unit. Eligible participants will be adults with a confirmed diagnosis of COPD, with severe to very severe airflow obstruction (FEV1 \< 50% predicted), and dyspnoea classified as grade 3 or 4 on the modified Medical Research Council (mMRC) scale. All participants will have a clinical indication for 6MWT as part of their care.
Each participant will undergo two 6MWTs and two stair climbing tests on the same day, at a dedicated clinical investigation centre. The sequence of shoe conditions will be randomised. Between tests, sufficient rest periods will be ensured. Standardised instructions and outcome measures (including distance, Borg scales, comfort ratings, vital signs, and optional metabolic measurements) will be used.
An ancillary study, offered to a subset of participants, will include continuous spirometric and metabolic assessments during the tests, aiming to clarify underlying physiological mechanisms (e.g., energy expenditure, hyperventilation, dynamic hyperinflation). Motion capture and force platform analysis will quantify gait biomechanics. In-shoe pressure mapping will compare load distribution across footwear conditions.
The study plans to enrol 75 patients. Sample size was calculated based on a minimal clinically important difference of 22.8 metres in 6MWT distance, assuming an SD of 53.6m and a power of 80-90%. The main analysis will compare intra-individual differences in 6MWT distance using paired statistical tests and linear mixed models accounting for period and sequence effects. Secondary outcomes will be analysed similarly.
The study duration is 12 months, with a single study visit for each participant. Risks are minimal, as all procedures are non-invasive and part of standard respiratory evaluation. Participants will travel to the evaluation centre by covered medical transport, and no medication or biological sampling is involved. The anticipated benefit is both individual (raising awareness of the role of footwear in daily life) and collective (identifying a simple, low-cost intervention to support mobility in COPD).
