Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT04069052 |
| Other study ID # |
DMED-2274-19 |
| Secondary ID |
|
| Status |
Completed |
| Phase |
Early Phase 1
|
| First received |
|
| Last updated |
|
| Start date |
September 1, 2021 |
| Est. completion date |
May 30, 2023 |
Study information
| Verified date |
April 2024 |
| Source |
Queen's University |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
Chronic obstructive pulmonary disease (COPD) is a progressive disease of the respiratory
system that generally develops as a result of smoking. Most people with COPD are classified
as having "mild" disease severity and may not have significantly impaired lung function (e.g.
flow) as measured by traditional lung function tests. However, multiple studies have shown
that patients with mild disease already have significant damage to the small airways and
blood vessels of the pulmonary system. This results in a considerable portion of the lung
that does not participate in gas exchange, a phenomenon called physiologic dead space. Mild
COPD patients develop symptoms of intolerable breathlessness early in exercise compared with
healthy individuals. Previous studies have shown that pulmonary vasodilators, which locally
increase blood vessel radius, may improve gas exchange and reduce symptoms of breathlessness
in patients with mild COPD. Therefore, the objective of this study is to determine the effect
of reducing dead space with a pulmonary vasodilator on the intensity of breathlessness during
exercise in patients with mild COPD. This five visit, double-blinded, placebo-controlled
crossover study will test the impact of inhaled nitric oxide, a direct vasodilator, during
cardiopulmonary exercise on dead space and breathlessness intensity. Use of an esophageal
catheter during testing will additionally permit measurement of neural drive to breathe and
pulmonary mechanics throughout the protocol. Though patients with mild COPD represent the
majority of the COPD population, their symptoms remain poorly managed by current, inefficient
standard of care. The proposed study will examine dead space reduction as a novel therapeutic
target for improving breathlessness and exercise tolerance in patients with mild COPD.
Description:
This study will recruit 20 current or ex-smokers who meet the criteria for mild chronic
obstructive pulmonary disease (COPD), measured by lung function tests. Participation is
voluntary and participants may withdraw from the study at any time.
Procedures:
General Medical Examination: All participants will undergo a physical examination conducted
by a physician. Concomitant medications will be recorded as well as body height and weight;
blood pressure; heart rate rhythm using a 12-lead electrocardiogram (ECG); and blood oxygen
saturation. The physician will identify any contraindications to exercise testing that would
prevent safe participation.
Pulmonary Function Tests: Standard lung function tests include: spirometry (measuring
respiratory flow during a maximal breath outward); body plethysmography (measuring lung
volumes); diffusing capacity for carbon monoxide (DLCO; measuring gas exchange across the
lung); maximal inspiratory pressure (MIP) and maximal expiratory pressure (MEP) maneuvers
(evaluating respiratory muscle strength); and impulse oscillometry (IOS; measuring lung
mechanics). Each test will be performed at least 2-3 times to ensure the results are
consistent. For all tests, the participant will breathe through a rubber mouthpiece with nose
clips on to occlude the nasal passage.
Cardiopulmonary Exercise Tests: The participants will perform exercise on a stationary
bicycle at each visit. While exercising, they will breathe through a mouthpiece with nose
clips on, which allows for the breath-by-breath recording of physiologic variables throughout
exercise. For each test, the participant will begin by sitting on the bike at rest (no
pedaling) for approximately 6 minutes to establish a consistent measure of their baseline
breathing. They will then begin pedaling for 1 minute against no resistance to warm-up. The
load will then increase either by 10 Watts every minute (Visit 1) or to a constant work rate
that will be maintained for 4 minutes (Visits 2-5). Every 2 minutes, the participant will be
asked to take a full breath all the way in (an inspiratory capacity (IC) maneuver). The
participant will also be asked to rate their breathing discomfort, their leg discomfort, how
unpleasant their breathing feels, and how difficult it is to breathe in and out, using a
10-point Borg Scale.
Diaphragm EMG and Respiratory Pressure Measurements: Before exercise, a topical anaesthetic
spray will be applied to the nasal passages and throat and a thin catheter (diameter 2 mm)
will be inserted by experienced personnel through the nose down the throat and into the
esophagus ("food tube") and top part of stomach. This catheter measures the electric activity
(EMG) of the diaphragm, which provides useful information about the inspiratory drive to
breathe. It also measures pressures in the esophagus within the chest as well as in the
stomach, which gives useful information about the work of breathing and breathing mechanics.
Blood Sampling: Small samples of blood will be taken from the earlobe before exercise, at
2-minute intervals during exercise, and after exercise. The participant's earlobe will be
warmed using a warm, damp cloth (ensuring adequate blood flow to the skin surface) throughout
the baseline rest period and exercise. A very small puncture will be made using a lancet
(similar to a very fine needle-tip), and blood will be collected in small glass tubes < 1mm
in size. These samples will be analysed for their blood gas content (oxygen and carbon
dioxide), variables needed to calculate dead space (the proportion of the lung unable to
adequately participate in gas exchange).
Study design: This will be a single-centre, randomized, double-blind, placebo-controlled
crossover study evaluating the effects of inhaled nitric oxide on the intensity of
breathlessness and the physiological responses to a standardized exercise task. After giving
written informed consent, participants will complete 5 visits, each conducted in the morning
2-7 days apart.
Visit 1 (Screening): The participants will have a detailed medical history taken and physical
examination conducted by a study physician. The participants will also have their symptoms of
COPD evaluated by standard written questionnaires [modified Medical Research Council (mMRC)
dyspnea scale, Baseline Dyspnea Index (BDI), and COPD Assessment Test (CAT)]. These
questionnaires will be explained to the participant by the study personnel and will be used
to determine if the participants meet the criteria of having moderate-to-severe
activity-related breathlessness. The participants will then undergo a series of pulmonary
(lung) function tests at rest to determine lung function. Participants will complete a
symptom-limited, incremental workload, cardiopulmonary exercise test on a stationary bicycle
to determine their maximal work rate (Wmax). The participant will exercise on the bike for as
long as they can, with the resistance increasing by 10 Watts every 1 min (see description
above). Cardiac status will be monitored by 12-lead ECG. Heart rate, oxygen saturation
(SpO2), and blood pressure will be monitored throughout exercise.
Visits 2 & 3 (Run-In): The participants will be familiarized with the 4-min standardized
cycle exercise test and breathing apparatus that will be completed for the remaining visits.
This cycle exercise test will be performed at a constant load. The initial resistance
selected will be 75% of their maximum workload (Wmax; determined from exercise test in Visit
1) with adjustments to the load made as needed. The goal of the resulting 4-min exercise test
is to have a standardized protocol that allows the participants to become sufficiently
breathless to assess the potential therapeutic effect of nitric oxide while not being so
intense as to prevent them from completing the test.
Visits 4 and 5 (Treatment): The participants will complete the 4-min cycle exercise test at
the work rate established in Visits 2 and 3 while breathing from a gas mixture consisting of
either 1) inhaled nitric oxide (800 ppm) or 2) placebo (room air), each on a background of
room air (21% oxygen; remainder nitrogen). Tests at Visits 4 and 5 will include detailed
measurements of diaphragm electric activity (EMG) and respiratory mechanical measurements.
Blood samples will be collected as described above: before exercise, at 2-minute intervals
throughout exercise, and at the end of exercise.
