COPD
Conditions
Keywords
Chronic obstructive pulmonary disease (COPD), Pulmonary rehabilitation, Balance, Otago exercise, Circuit training
Brief summary
The study is designed to compare circuit training and otago exercise program for improvement of balance in COPD patients. Although both techniques are effective for balance training but Otago exercise program is home-based exercise program, which, if proven effective, will help the COPD patients to do work up at home, thereby reducing cost of hospital visits and improving balance ability and thus the quality of life more effectively.
Detailed description
Chronic obstructive pulmonary disease (COPD) is a respiratory disease that result in progressive restriction of airflow and respiratory distress and is the 4th leading cause of death. In specific, it happens among smokers over the age of 40 and individuals exposed to biomass smoke. The prevalence of COPD is expected to increase as the population ages. Pakistan is a lower-middle-income country, and facing a high burden of chronic obstructive pulmonary diseases. The prevalence of COPD among Pakistani adults aged more than 40 years is 2.1% In addition to pulmonary symptoms, patients with chronic obstructive pulmonary disease develop many other manifestations of the disease, such as cardiovascular co morbidities, peripheral muscle dysfunction, weight loss, systemic inflammation, and psychological problems. People also have reduced capacity for exercise and functional mobility. Among all, one important extra respiratory manifestation is impaired balance. It is a frequent problem in stable COPD and increases with the severity of the disease. As in COPD there is loss of body cells which causes skeletal muscle weakness and balance impairment. Since skeletal muscle dysfunction in people with COPD is a commonly identified impairment, it is not surprising that lower-limb muscle weakness has also been linked in this population to balance deficits and increased risk of falling. Muscle strength in both the upper and lower extremities is reduced in COPD patients along with impairments in exercise tolerance. Pulmonary rehabilitation (PR) is an effective COPD intervention that involves exercise training and psychosocial support, and patient education to achieve maximum community independence and function. This recommended standard of care, however, focuses primarily on training peripheral muscles through endurance and strength training and does not include a particular training component. The effective intervention to successfully reduce both the rate and risk of falling has been shown to be exercise with balance-specific training. As COPD decreases the amount of physical activity, even early in the disease phase, and impairs the strength of the lower limb muscle thus affecting balance. Balance training protocols together with pulmonary rehabilitation exercises helps to improve balance and symptoms of COPD. Although both circuit training and Otago exercise program are effective for balance training but Otago exercise program is home-based exercise program, which, if proven effective, will help the COPD patients to do work up at home, thereby reducing cost of hospital visits and improving balance ability and thus the quality of life more effectively.
Interventions
1. Warm-up exercises. Chair March, Arm swings ( 30 second), Head movement, neck movement, back extension, trunk movement, ankle movement (repeat 5 times). Back of thigh stretch, calf stretch, (hold for 8 seconds). 2. Strengthening exercises Front knee strengthening, back knee strengthening, side hip strengthening (2 or more sets of 10 reps) Calf raises, toe raises (repeat this exercises 10 to 20 times) 3. Balance improvement exercises Knee bends, heel-toe standing, heel toes walking, one leg stand ( start with 5 sec move up to 10 sec) Side walk, heel walking, sit to stand, backwards walking, heel toes walking backwards, walking and turning around, stair walking (10 steps). 4. Cool-down session Back of thigh stretch, calf stretches ( 10 to 20 sec hold, 1 to 3 reps) 5. Pulmonary rehabilitation program * Daily breathing exercises (e.g. diaphragmatic, pursed lip breathing). * Stretch exercise for major respiratory muscles.
OTHERCircuit training
1. Functional strength exercises Heel raise, toe raise, walking on toes, step ups in all directions ( forward, backward and sideways) (2 sets and 8 reps) 2. Stance exercises Tandem, narrow, one leg stance, and stand on uneven surfaces with open eyes (each exercise 30 seconds) Tandem, narrow, one leg stance, and stand on uneven surfaces with eyes closed (each exercise 15seconds). 3. Transition exercises Sit to stand from chair with arms (10 reps) and then without arms support (5 reps). Sit on floor and stand up with assistance and then without assistance. 4. Gait training Walking tandem, sideway and backward with arm support. Walking tandem, sideway and backward without arm support Walking tandem, sideway and backward over obstacles 5. Pulmonary rehabilitation program * Daily breathing exercises (e.g. diaphragmatic, pursed lip breathing). * Stretch exercise for major respiratory muscles
Sponsors
Riphah International University
Study design
Allocation
RANDOMIZED
Intervention model
PARALLEL
Primary purpose
TREATMENT
Masking
SINGLE (Outcomes Assessor)
Eligibility
Sex/Gender
ALL
Age
50 Years to 70 Years
Healthy volunteers
No
Inclusion criteria
* Both male and female patients. * Patients with mild / moderate COPD according to Global Initiative for Chronic Obstructive Lung Disease (GOLD) criteria. * Patients with fall history in the past 5 years.
Exclusion criteria
* Oxygen-dependent or mechanically ventilated patients. * Patients with impaired hearing or cognition, (e.g., dementia or neurological condition) * Patients with limited balance and mobility owing musculoskeletal or neurological condition. * Patients with unstable cardiovascular disease. * Patients with intellectual disabilities.
Design outcomes
Primary
| Measure | Time frame | Description |
|---|---|---|
| Berg Balance Scale | 8 weeks | Berg Balance Scale was originally developed to measure balance in the elderly, it has since been used to measure balance in a wide variety of patients. Each of these items is scored from 0 to 4, which are summed to make a total score between 0 and 56, with a higher score indicating better balance. The relative intrarater reliability of the Berg Balance Scale is 0.98 (0.97 to 0.99). Relative inter-rater reliability is 0.97 (0.96 to 0.98). Changes in berg balance scale from baseline to 4th and after 8 weeks of intervention will be assessed. |
| Unipedal Stance (UPST) test | 8 weeks | The Unipedal stance test is described as a method of quantifying static balance ability and is useful in explaining other variables of importance such as frailty and self-sufficiency in activities of daily living, gait performance, and fall status. It can be used in a variety of settings and requires minimal equipment or training. It is a valid measure. Abnormal unipedal stance test (UPST) time with the eyes open is related to conditions such as peripheral neuropathy and intermittent claudication. Decreased eyes open UPST time is also associated with an increased risk for falls. Its inter-rater reliability was determined to be excellent with an intra-class correlation coefficient of 0.994(95% confidence interval 0.989-0.996) for eye open and 0.998 (95% confidence interval 0.996-0.999) for eye close. Average time of unipedal stance in healthy older adults is \< 10 seconds. Changes in UPST from baseline to 4th and after 8 weeks of intervention will be assessed. |
Secondary
| Measure | Time frame | Description |
|---|---|---|
| Forced vital capacity (FVC) | 8 weeks | Forced vital capacity (FVC) measured through digital spirometer. If the value of FVC is within 80% of the reference value, the results are considered normal. Changes in FVC from baseline to 4th and after 8 weeks of intervention will be assessed. |
| St. George Respiratory questionnaire for quality of life (QOL) | 8 weeks | The most commonly used disease-specific quality of life measure for COPD patients is the St. George's Respiratory Questionnaire (SGRQ). Disease-specific instrument designed to measure impact on overall health, daily life, and perceived well-being in patients with obstructive airways disease.. It is divided in two parts. Part I produces the Symptoms score, and Part 2 the Activity and Impacts scores. The reliability coefficient was 0.94 for the overall scale and 0.72 for Symptoms, 0.89 for Activity, and 0.89 for Impacts subscales. A total score is calculated from 0 (no health impairment) to 100 (maximum health impairment) Changes in St. George Respiratory questionnaire for quality of life from baseline to 4th and after 8 weeks of intervention will be assessed. |
| FVC/FEV1 | 8 weeks | FVC/FEV1 measured through digital spirometer. The normal value for the FEV1/FVC ratio is 70% (and 65% in persons older than age 65). Changes in FEV1/FVC from baseline to 4th and after 8 weeks of intervention will be assessed. |
| Forced expiratory volume in 1sec (FEV1) | 8 weeks | Forced expiratory volume in 1sec (FEV1) measured through digital spirometer. If the value of FEV1 is within 80% of the reference value, the results are considered normal. Changes in FEV1 from baseline to 4th and after 8 weeks of intervention will be assessed. |
| Peak expiratory flow rate (PEFR) | 8 weeks | Peak expiratory flow rate (PEFR) measured through digital spirometer. Peak Expiratory Flow Rate (PEFR) measured through digital spirometer. Three zones of measurement are commonly used to interpret peak flow rates. Normal value of PEFR is (80-100%). Green zone indicates 80 to 100 percent of the usual or normal peak flow reading, yellow zone indicates 50 to 79 percent of the usual or normal peak flow readings, and red zone indicates less than 50 percent of the usual or normal peak flow readings. Changes in PEFR from baseline to 4th and after 8 weeks of intervention will be assessed. |
Countries
Pakistan
Outcome results
None listed