Rehabilitation of Patients With COPD Using Electrical Muscle Stimulation
|ClinicalTrials.gov Identifier: NCT01799330|
Recruitment Status : Unknown
Verified June 2014 by Yale University.
Recruitment status was: Recruiting
First Posted : February 26, 2013
Last Update Posted : June 16, 2014
The two hypotheses to be tested in this study are that:
- The administration of transcutaneous electrical muscle stimulation (TCEMS) after completion of conventional exercise training in pulmonary rehabilitation (PR) will result in further improvements in exercise tolerance, functional status and symptoms of patients with stable chronic obstructive pulmonary disease (COPD) above those achieved in PR alone.
- TCEMS can improve exercise tolerance, functional status and symptoms even among COPD patients who fail to make gains in exercise tolerance by participating in conventional PR due to their debilitation and/or marked cardio-respiratory impairment.
|Condition or disease||Intervention/treatment||Phase|
|COPD||Procedure: Transcutaneous Electrical Muscle Stimulation (TCEMS)||Not Applicable|
Although a substantial body of evidence supports the existence of skeletal muscle dysfunction in COPD and the benefits of PR for these patients, the role of TCEMS as a routine rehabilitative strategy for patients with COPD has yet to be established. The studies proposed in this research will build on the knowledge gained in our previous study of TCEMS by investigating whether and how TCEMS adds to the beneficial effects of PR on exercise capacity and muscle function among outpatients with stable COPD, and by assessing for the first time whether TCEMS improves exercise tolerance and functional status among COPD patients unable to make gains following conventional outpatient PR. Thus, this proposed study may provide a novel strategy in the rehabilitation of patients with chronic lung disease.
The two specific aims of the proposed study are:
- Determine whether administration of TCEMS after conventional exercise training in PR leads to added gains in muscle strength, exercise capacity, dyspnea and health status, to determine if TCEMS should be considered as an additional routine method in outpatient PR programs.
- Determine whether patients who are unable to improve exercise tolerance during conventional exercise training in PR can achieve gains in muscle strength, exercise tolerance, dyspnea, and health status following TCEMS used as an alternate rehabilitative strategy.
|Study Type :||Interventional (Clinical Trial)|
|Estimated Enrollment :||160 participants|
|Intervention Model:||Factorial Assignment|
|Masking:||Double (Participant, Outcomes Assessor)|
|Official Title:||Rehabilitation of Patients With COPD Using Electrical Muscle Stimulation|
|Study Start Date :||December 2008|
|Estimated Primary Completion Date :||December 2015|
|Estimated Study Completion Date :||June 2016|
Experimental: Group 1:Active TCEMS
Transcutaneous Electrical Muscle Stimulation (TCEMS): Group 1 will undergo TCEMS using an Omnistim FX-2 with two surface patch electrodes (8 x 6 cm) applied to each quadriceps, hamstring and calf muscles. The knee angle will remain at 90 degrees during simultaneous muscle stimulation to prevent joint movement. Electrical stimulation will be performed for 20 minutes on each limb, 3 days/week for 8 continuous weeks on an outpatient basis. The stimulator will be set to generate brief bursts of electrical impulses at 50Hz lasting 200 ms every 1500 ms. Muscles will be stimulated with an asymmetrical square wave pulse with an initial intensity set to create a visible contraction ranging from 55 mA to 120 mA.
|Procedure: Transcutaneous Electrical Muscle Stimulation (TCEMS)|
Placebo Comparator: Group 2: Sham TCEMS
Patients randomized to Group 2 (Sham TCEMS) will receive the identical set-up for active TCEMS except they will receive a minimal electrical stimulus that does not produce a motor response.
- Incremental Shuttle Walk Test (SWT) [ Time Frame: Baseline, Post 8 Weeks PR, Post 8 Weeks Active/Sham TCEMS ]The incremental Shuttle Walk Test will be used as a measure of exercise capacity. This test measures the maximal distance walked by the patient around two position markers set 10 meters apart, at a pace set by audio signals from a cassette tape. Minute-by-minute walking speed is increased until the patient feels too tired or short of breath to continue, or is unable to walk at least half of the 10 meter distance by the time the next audio signal is heard. Patients who routinely use supplemental oxygen will perform the test while carrying their portable oxygen delivery system during testing. As noted above, a practice run will be performed on the day the patient comes in for familiarization with the protocol and equipment. The investigator conducting the Shuttle Walk Test will be blinded to the groupings of subjects to avoid potential bias of the results.
- Body Composition [ Time Frame: Baseline, Post 8 Weeks PR, Post 8 Weeks Active/Sham TCEMS ]Body composition will be assessed using bioelectrical impedance analysis (Hydra 4200; Xitron Technologies, San Diego, CA) at a standardized time after breakfast. Bioelectrical impedance analysis (BIA) is a simple, safe, non-invasive method to measure assess lean (e.g., muscle) vs. fat body compartments. Fat-free mass will be calculated by using disease-specific equations as described by Schols. Fat mass will then be calculated as total body weight minus fat-free mass. Such BIA measurements are accurate, comparable to other techniques used to assess body composition, and have been validated in patients with COPD.
- Body Mass Index (BMI) [ Time Frame: Baseline, Post 8 Weeks PR, Post 8 Weeks Active/Sham TCEMS ]BMI is calculated as weight in kg/height in m2.
- Pulmonary Function [ Time Frame: Baseline, Post 8 Weeks PR, Post 8 Weeks Active/Sham TCEMS ]Spirometry, lung volume and diffusing capacity measurements will be performed according to standard procedure in the pulmonary function laboratory by a trained pulmonary function technician at either the Newington or West Haven Campus of VACHS according to American Thoracic Society Guidelines.
- Muscle Strength [ Time Frame: Baseline, Post 8 Weeks PR, Post 8 Weeks Active/Sham TCEMS ]Quadriceps and hamstring muscle maximal isokinetic strengths will be measured with the patient in an upright seated position, at an angular velocity of 60 degree/sec using a Biodex Multijoint System 2 dynamometer. Five duplicate leg extension and flexion measurements from a resting knee joint angle of 90 degrees will be made with adequate rest periods (2 min) in between efforts. The best peak torque value in Newton-meter (Nm) unit will be recorded.
- Six Minute Walk Test (6MWT) and Borg Dyspnea Rating [ Time Frame: Baseline, Post 8 Weeks PR, Post 8 Weeks Active/Sham TCEMS ]The total distance walked in 6 minutes is recorded. The 6 minute walk test is well validated for use and is used widely in pulmonary rehabilitation programs, as it is sensitive to changes in exercise endurance that occur following exercise training. The degree of perceived exertion will be assessed at the end of the 6MWT using a Borg Dyspnea scale (a patient-reported numerical rating of the degree of dyspnea associated with any given degree of exertion).
- Cardiopulmonary Exercise Test [ Time Frame: Baseline, Post 8 Weeks PR, Post 8 Weeks Active/Sham TCEMS ]Maximal symptom-limited incremental cardiopulmonary exercise testing (CPET) will be performed by a pulmonary function/exercise technologist according to standard methods used in the West Haven VA Pulmonary Function Laboratory, using a calibrated cycle ergometer (Collins Gold Standard Plus Cardiopulmonary Exercise System, Pulmonary Data Services, Louisville, CO) with a pedaling frequency of 40 revolutions per minute, during which the workload will increase by 5-20 Watt increments every minute depending on the subjects' exercise capacity. Breathing rate, tidal volume, minute ventilation, and electrocardiography will be measured continuously according to standard procedure. Oxygen consumption and carbon dioxide production will be calculated from the fractional concentrations of oxygen and carbon dioxide in the mixed expired gas using a Collins CPX Unit metabolic system (Pulmonary Data Services, Louisville, CO).
- Dyspnea Scale [ Time Frame: Baseline, Post 8 Weeks PR, Post 8 Weeks Active/Sham TCEMS ]The Medical Research Council Dyspnea Scale is a simple questionnaire in which the patient rates the level of exertion/activity at which he/she experiences dyspnea, by checking one of five boxes on a five point scale. This questionnaire takes approximately 5 minutes to complete.
- Chronic Respiratory Disease Questionnaire [ Time Frame: Baseline, Post 8 Weeks PR, Post 8 Weeks Active/Sham TCEMS ]The Chronic Respiratory Disease Questionnaire is a respiratory-specific health status instrument in which patients give responses to simple questions encompassing four principal domains: dyspnea, fatigue, emotion and mastery. This questionnaire is used routinely worldwide as a health status outcomes measure in pulmonary rehabilitation programs, including the outpatient PR program at the West Haven VA, as it is highly responsive to the PR intervention. Total and the four sub-scores for each of the domains tested will be analyzed.
- Medical Outcome Survey Short-Form-36 (SF-36) Questionnaire [ Time Frame: Baseline, Post 8 Weeks PR, Post 8 Weeks Active/Sham TCEMS ]The SF-36 is a general health status questionnaire in which patients give responses to questions encompassing domains of physical functioning, role-physical, bodily pain, general health, vitality, social functioning, role-emotional, and mental health. Physical and mental summary scores can be calculated from these subscales.
Please refer to this study by its ClinicalTrials.gov identifier (NCT number): NCT01799330
|Contact: Terri Levesh, RRT||203 932 5711 ext firstname.lastname@example.org|
|Contact: Carolyn L Rochester, MD||203 932 5711 ext email@example.com|
|United States, Connecticut|
|VA Connecticut Healthcare System||Recruiting|
|West Haven, Connecticut, United States, 06516|
|Principal Investigator: Carolyn L Rochester, MD|
|Principal Investigator:||Carolyn L Rochester, MD||VA Connecticut Healthcare System/ Yale University School of Medicine|