Actively Recruiting
Oral Sildenafil for Exercise Capacity, Dyspnea and Cardiopulmonary Function in COPD
Led by University of Alberta · Updated on 2026-05-06
160
Participants Needed
1
Research Sites
269 weeks
Total Duration
On this page
Sponsors
U
University of Alberta
Lead Sponsor
C
Canadian Institutes of Health Research (CIHR)
Collaborating Sponsor
AI-Summary
What this Trial Is About
Chronic obstructive pulmonary disease (COPD) is a condition characterized by airway obstruction. Patients with COPD experience significant shortness of breath on exertion. The mechanisms responsible for shortness of breath on exertion are well understood in moderate and severe COPD, but, are poorly understood in mild COPD where symptoms appear disproportionate to the degree of airway obstruction. Mild COPD patients show an exaggerated breathing response to exercise, determined by the breathing response to carbon dioxide production (V̇E/V̇CO2). Recent work suggests that the increased V̇E/V̇CO2 during exercise in mild COPD is secondary to increased deadspace (i.e. lung regions with ventilation but no perfusion) and/or ventilation/perfusion (V̇A/Q) inequality (poor matching of ventilation to perfusion). Researchers have proposed that the increased deadspace or V̇A/Q inequality is secondary to pulmonary vascular dysfunction and hypoperfusion of the pulmonary capillaries. Recently, we have shown that inhaled nitric oxide, a potent dilator of pulmonary vasculature, reduces shortness of breath and V̇E/V̇CO2, and improves exercise capacity in mild COPD. This preliminary finding suggests that pulmonary vascular dysfunction is an important contributor to exercise intolerance in mild COPD. Here, we aim to test whether sildenafil, an oral pulmonary vasodilator, can improve exercise tolerance and shortness of breath in mild COPD.
CONDITIONS
Official Title
Oral Sildenafil for Exercise Capacity, Dyspnea and Cardiopulmonary Function in COPD
Who Can Participate
Eligibility Criteria
You may qualify if you...
- Participants must have COPD diagnosed by a low post-bronchodilator FEV1/FVC ratio below normal
- Participants with COPD must have FEV1 greater than 30% of predicted
- COPD-free controls must have no COPD diagnosis
- COPD-free controls must have a normal post-bronchodilator FEV1/FVC ratio
- COPD-free controls must have FEV1 greater than 80% of predicted
- Women of childbearing potential must agree to use acceptable contraception during the study
- Postmenopausal women must have been without menstruation for at least 12 months
You will not qualify if you...
- Any absolute contraindication to exercise testing or orthopedic issues limiting exercise
- Pre-existing heart conditions that limit exercise, including heart failure, congenital defects, or valve disease
- Prior diagnosis of pulmonary hypertension before COPD
- Current use of phosphodiesterase type-5 inhibitors, nitrates, opioids, azole antifungals, macrolide antibiotics, protease inhibitors, alpha blockers, riociguat, mifepristone, or rifamycin
- Pregnancy or breastfeeding
AI-Screening
AI-Powered Screening
Complete this quick 3-step screening to check your eligibility
Trial Site Locations
Total: 1 location
1
Clinical Physiology Laboratory
Edmonton, Alberta, Canada, T6G2R3
Actively Recruiting
Research Team
D
Desi Fuhr, MSc
CONTACT
R
Rhys Beaudry, Ph.D.
CONTACT
How is the study designed?
Study Type
INTERVENTIONAL
Masking
TRIPLE
Allocation
RANDOMIZED
Model
CROSSOVER
Primary Purpose
TREATMENT
Number of Arms
2
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