FindTrial
Sign In

Eccentric Exercise Training as Novel Rehabilitation for Chronic Obstructive Pulmonary Disease (COPD)

Eccentric Training as Novel Rehabilitation for COPD

Status
Completed
Phases
NA
Study type
Interventional
Source
ClinicalTrials.gov
Registry ID
NCT01077102
Enrollment
24
Registered
2010-02-26
Start date
2011-01-31
Completion date
2012-12-31
Last updated
2018-08-24

For informational purposes only — not medical advice. Sourced from public registries and may not reflect the latest updates. Terms

Conditions

Pulmonary Disease, Chronic Obstructive, Bronchitis, Chronic, Emphysema

Keywords

COPD, eccentric exercise training, cycle ergometer, muscle function

Brief summary

The main purpose of this project is to establish the additional value of eccentric versus concentric exercise to optimize muscle function in patients with severe COPD. With this pilot project the investigators expect that an eccentric endurance training protocol adapted to severe COPD patients will lead to gains in muscle strength, the primary outcome, and cellular adaptation (muscle morphology and oxidative capacity, mitochondrial respiratory capacity) when compared to a concentric training approach. This information will be essential if the investigators want to design and power a randomized clinical trial that will allow assessing effectiveness of this novel rehabilitation approach.

Detailed description

Chronic obstructive pulmonary disease (COPD) is a major respiratory illness that is both preventable and treatable. Dyspnea is the most important symptom that COPD patients experience and this can have a major impact on their daily live. While COPD is characterized by a spectrum of disease severity, most patients experience poor exercise intolerance attributable to ventilatory limitation as well as peripheral muscle fatigue, ultimately leading to severe disability. Endurance exercise is an important component of pulmonary rehabilitation and is aimed at preventing this decline in functional capacity. The effects of pulmonary rehabilitation are largely attributable to the exercise training component involving concentric muscle contractions, traditionally trough dynamic, large muscle exercise on a cycle ergometer or treadmill. However, many patients are unable to partake and benefit from such rehabilitation because of locomotor muscle weakness and severe ventilatory limitation that prevent them from exercising at intensities sufficient to provoke improvements in cardioventilatory and skeletal muscle function. Eccentric exercise is known for its unique physiologically fundamental characteristics: the lower metabolic demand for a same power output and greater muscle gains compared to the concentric exercise. For this reason, eccentric endurance training has been proposed as a novel adjunctive rehabilitative countermeasure for certain chronic diseases (such as coronary disease and COPD) and can play an important role for patients with advanced disease.

Interventions

OTHEREccentric exercise training

The eccentric exercise training will be performed using a specially built cycle ergo meter where the pedals are driven in backward direction by an electric motor, which has to overcome the adjustable resistance of the electromagnetic brake. During eccentric cycle ergometry patients have to resist the turning pedals.

Sponsors

McGill University Health Centre/Research Institute of the McGill University Health Centre
Lead SponsorOTHER

Study design

Allocation
RANDOMIZED
Intervention model
PARALLEL
Primary purpose
TREATMENT
Masking
SINGLE (Outcomes Assessor)

Eligibility

Sex/Gender
MALE
Age
40 Years to 80 Years
Healthy volunteers
No

Inclusion criteria

* male patients with severe COPD (FEV1/FVC \< 0.70 and FEV1 ≤ 50% predicted of normal) * Patients aged 40 to 80 years old in whom exercise is not contraindicated * Current and ex-smokers * Patients who do not require oxygen therapy

Exclusion criteria

* Patients presenting neurological or orthopedic problems, morbid obesity, acute medical condition or recent exacerbations (in the last four weeks) * Patients with recent or current participation in a rehabilitation program

Design outcomes

Primary

MeasureTime frameDescription
Muscle strengthAt baseline, at the middle way point of the training program (5th to 7th week) and at the end of the 10-wk training programThis outcome will be measured using an isokinetic dynamometer

Secondary

MeasureTime frameDescription
Muscle cellular adaptationAt baseline and at the end of the training programMuscle biopsy will include evaluation of cross-sectional area, fiber type, mitochondrial oxidative capacity, mitochondrial respiratory capacity, respiratory oxygen species and expression of genes involved in muscle atrophy and hypertrophy (Atrogin-1, MurF1, FoxO, MyoD, Myostatin)
Exercise capacity (maximal and submaximal)At baseline, at the middle way point of the training program (5th to 7th week) and at the end of the 10-wk training program
Physical ActivityAt baseline, at the middle way point of the training program (5th to 7th week) and at the end of the 10-wk training programPhysical activity levels will be measured by an accelerometer and by the CHAMPS questionnaire.
Health-related quality of life (HRQL)At baseline, at the middle way point of the training program (5th to 7th week) and at the end of the 10-wk training programThe HRQL will be measured by the Chronic Respiratory Questionnaire
Muscle pain and creatine kinase(CK)levelsMuslce pain will be assessed in the beginning and in the end of each session and CK levels at baseline, after the fisrt week of training, midway through and the after the last week of training

Countries

Canada

Outcome results

None listed

Source: ClinicalTrials.gov · Data processed: Feb 4, 2026