A review of the literature suggests that high-intensity intermittent inspiratory muscle training (IMT) combined with the Otago exercise program may provide positive effects on early post-discharge recovery of patients aged 65 years and older undergoing coronary artery bypass graft (CABG) surgery. No studies have yet examined the effects of high-intensity intermittent IMT combined with the Otago exercise program on patients undergoing CABG surgery. This study is the first to evaluate the effects of high-intensity intermittent IMT combined with the Otago exercise program on pulmonary function, functional capacity, muscle strength, functional mobility, balance, anxiety and depression levels, frailty, and quality of life in elderly patients undergoing CABG surgery.
Coronary artery bypass graft (CABG) surgery aims to revascularize the myocardium by bypassing one or more coronary arteries narrowed or occluded due to atherosclerosis. Procedures such as sternotomy, cardiopulmonary bypass, general anesthesia, and pleural drain placement can lead to postoperative complications including hypersecretion, hypoxemia, decreased pulmonary compliance, reduced exercise capacity, and impaired lung function. These complications may cause prolonged immobilization and additional pulmonary issues. Moreover, protein catabolism after cardiovascular surgery leads to muscle protein loss, which is exacerbated by immobilization, slowing protein synthesis and accelerating muscle fiber breakdown and cell death, thereby contributing to muscle loss progression. Postural balance also decreases following CABG, potentially leading to reduced functional activities, increased fall risk, morbidity, and mortality. CABG negatively impacts patients' quality of life and causes functional limitations. Anxiety about disease recurrence and fear of death after discharge contribute to psychological stress for patients and relatives, further impairing recovery. Frailty is closely associated with cardiopulmonary diseases and is common after CABG surgery. A study evaluating 180 bypass patients with an average age of approximately 69 years found that 23.3% were frail. High frailty scores post-CABG correlate with adverse outcomes such as prolonged hospital stays and rehospitalization within 30 days. Inspiratory muscle training (IMT) is a method designed to strengthen inspiratory muscles by providing airway resistance during breathing. Effective IMT requires appropriate intensity, duration, and frequency. Training at or above 30% of maximal inspiratory pressure (MIP) for 20-30 minutes daily, five days a week, over 5-12 weeks produces structural changes in respiratory muscles. Previous studies demonstrated that IMT improves inspiratory muscle strength, functional capacity, psychosocial status, and quality of life in patients undergoing CABG surgery. Additionally, moderate to high-intensity IMT combined with aerobic and strengthening exercises during cardiac rehabilitation increases exercise capacity, inspiratory muscle strength, and quality of life more than sham IMT combined with similar exercises. High-intensity intermittent IMT has recently shown beneficial results in cardiovascular and pulmonary diseases. In heart failure patients, high-intensity intermittent IMT performed in cycles of loading and rest improved dyspnea, frailty, fatigue, inspiratory muscle strength, respiratory muscle endurance, exercise capacity, and quality of life, compared to sham IMT. Similar positive effects were observed in patients with bronchiectasis and elderly individuals undergoing home-based IMT, with improvements in inspiratory muscle function, balance, and physical performance. IMT has demonstrated effectiveness in reducing dyspnea, improving respiratory muscle strength, pulmonary function, functional capacity, daily living activities, and quality of life in patients with chronic obstructive pulmonary disease, chronic kidney disease, chronic heart failure, and in healthy populations. It also enhances postural stability due to the diaphragm's mechanical role in lumbar stabilization. The Otago exercise program, developed in New Zealand to prevent falls, is a home-based training protocol including warm-up, strengthening, balance, and walking exercises. Performed three times weekly with progressively increasing intensity, it improves lower extremity muscle strength, balance, and mobility in elderly individuals. Few studies have investigated the combination of IMT and the Otago exercise program. Recent research in healthy adults and diabetic patients indicates that combined training improves balance, inspiratory muscle function, mobility, respiratory function, muscle strength, and endurance more than either intervention alone. This prospective, randomized, controlled, single-blind study will evaluate the effects of the Otago exercise program combined with high-intensity IMT on elderly patients undergoing CABG surgery. The study will be conducted at Istanbul University-Cerrahpaşa Cardiology Institute, Department of Cardiovascular Surgery.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
28
Patients in the experimental group will perform 7 sets of high-intensity intermittent inspiratory muscle training (IMT) for eight weeks, one day a week face-to-face with the researcher and two days at home, for a total of three days, each set consisting of 2 minutes of loading and 1 minute of rest for a total of 21 minutes. The Otago exercise program will be conducted for eight weeks, two days a week home-based and one day face-to-face with the researcher. The Otago exercise program will be complemented with walking exercise every day of the week. The Otago exercise program is designed to be progressive. The protocol was created to increase the difficulty of training at four different levels and every 2 weeks. The Otago exercise program will be applied to both the experimental group and the control group in the same protocol.
Patients in the control group will perform 7 sets of sham inspiratory muscle training (IMT), consisting of 2 minutes of loading and 1 minute of rest in each set for a total of 21 minutes, one day a week face-to-face with the researcher and two days at home, for eight weeks. The Otago exercise program will be conducted for eight weeks, two days a week home-based and one day face-to-face with the researcher. The Otago exercise program will be complemented with walking exercise every day of the week. The Otago exercise program is designed to be progressive. The protocol was created to increase the difficulty of training at four different levels and every 2 weeks. The Otago exercise program will be applied to both the experimental group and the control group in the same protocol.
Istanbul University-Cerrahpaşa
Istanbul, Turkey (Türkiye)
Istanbul University-Cerrahpaşa
Istanbul, Turkey (Türkiye)
Istanbul University-Cerrahpaşa
Istanbul, Turkey (Türkiye)
Maximum inspiratory pressure
In the maximum inspiratory pressure measurement, patients will be asked to perform maximum inspiration for at least 2 seconds through the mouthpiece after first performing maximum expiration by sitting and using a nose clip. The measurement result will be recorded in units of cmH2O and percentage % of the expected value. The measurement will be considered satisfactory when a change of less than 10% is observed between the three measurements and the highest value is adopted.
Time frame: The baseline assessment will be conducted at 2 weeks post-surgery. Following the completion of the 8-week intervention protocol, the final assessment will be performed at 10 weeks post-surgery.
Maximum expiratory pressure
Patients will be asked to perform maximum expiration against a closed system for at least 2 seconds after maximum inspiration. The measurement result will be recorded in units of cmH2O and percentage % of the expected value. The measurement will be considered satisfactory when a change of less than 10% is observed between the three measurements and the highest value is adopted.
Time frame: The baseline assessment will be conducted at 2 weeks post-surgery. Following the completion of the 8-week intervention protocol, the final assessment will be performed at 10 weeks post-surgery.
Forced vital capacity (FVC) massessment
Patients will perform a rapid and complete inhalation maneuver from functional residual capacity to total lung capacity, followed by a continuous and maximal exhalation maneuver lasting at least six seconds. Verbal and non-verbal encouragement will be provided throughout the maneuvers. The test will be terminated once acceptable repeatability is achieved. The results will be recorded in litres.
Time frame: The baseline assessment will be conducted at 2 weeks post-surgery. Following the completion of the 8-week intervention protocol, the final assessment will be performed at 10 weeks post-surgery.
Assessment of functional capacity
Functional capacity will be assessed using the 6-Minute Walk Test. Patients will be instructed to walk at their own pace to cover the maximum possible distance along a 30-meter corridor within 6 minutes. The total distance walked will be recorded in meters. Heart rate, measured in beats per minute, blood pressure, measured in millimeters of mercury, and oxygen saturation, measured as a percentage, will be recorded both before and after the test. Patients will be informed that they may rest or slow down as needed during the test.
Time frame: The baseline assessment will be conducted at 2 weeks post-surgery. Following the completion of the 8-week intervention protocol, the final assessment will be performed at 10 weeks post-surgery.
Evaluation of muscle strength
Isometric muscle strength of the M. Quadriceps femoris will be measured using a portable handheld dynamometer. Patients will be seated with the knee in full extension, and maximum resistance will be applied at the ankle to assess muscle strength. The measurement will be repeated three consecutive times, and the average value will be recorded in kilograms.
Time frame: The baseline assessment will be conducted at 2 weeks post-surgery. Following the completion of the 8-week intervention protocol, the final assessment will be performed at 10 weeks post-surgery.
Assessment of functional mobility
Mobility will be assessed using the Timed Up and Go Test. Patients will be instructed to rise from a chair, walk three meters, turn around, walk back to the chair, and sit down. The total time taken to complete this task will be recorded in seconds. A time of 13.5 seconds or longer is indicative of a higher risk of falls.
Time frame: The baseline assessment will be conducted at 2 weeks post-surgery. Following the completion of the 8-week intervention protocol, the final assessment will be performed at 10 weeks post-surgery.
Balance assessment
Balance performance will be assessed using the Berg Balance Scale, which consists of 14 items scored from 0 to 4, with a maximum total score of 56. Scores between 0-20 indicate balance impairment, 21-40 indicate acceptable balance, and 41-56 indicate good balance performance. Additionally, balance confidence will be evaluated using the Activity Specific Balance Confidence Scale, which includes 16 questions assessing confidence in performing daily activities indoors and outdoors. Each item is scored from 0% (unsafe) to 100% (completely safe), and the average score is calculated to provide an overall balance confidence percentage. Higher scores represent greater confidence.
Time frame: The baseline assessment will be conducted at 2 weeks post-surgery. Following the completion of the 8-week intervention protocol, the final assessment will be performed at 10 weeks post-surgery.
Assessment of anxiety and depression level
Anxiety and depression levels will be assessed using the Hospital Anxiety and Depression Scale. This scale evaluates the risk and severity of anxiety and depression symptoms through 14 questions-seven assessing anxiety (odd-numbered) and seven assessing depression (even-numbered). Responses are rated on a four-point Likert scale ranging from 0 to 3. The total score ranges from 0 to 42. Higher scores indicate more severe symptoms.
Time frame: The baseline assessment will be conducted at 2 weeks post-surgery. Following the completion of the 8-week intervention protocol, the final assessment will be performed at 10 weeks post-surgery.
Frailty assessment
Frailty will be assessed using the Fried Frailty Phenotype based on five criteria: Participants with three or more criteria will be classified as frail.
Time frame: The baseline assessment will be conducted at 2 weeks post-surgery. Following the completion of the 8-week intervention protocol, the final assessment will be performed at 10 weeks post-surgery.
Assessment of quality of life
Patients' quality of life will be assessed using the Short Form-36 questionnaire, which comprises 36 items covering eight subscales related to physical and mental health. Each subscale is scored between 0 and 100, with higher scores indicating a better overall quality of life.
Time frame: The baseline assessment will be conducted at 2 weeks post-surgery. Following the completion of the 8-week intervention protocol, the final assessment will be performed at 10 weeks post-surgery.
Forced expiratory volume in one second (FEV1) assessment
Patients will perform a rapid and complete inhalation maneuver from functional residual capacity to total lung capacity, followed by a continuous and maximal exhalation maneuver lasting at least six seconds. Verbal and non-verbal encouragement will be provided throughout the maneuvers. The test will be terminated once acceptable repeatability is achieved. The results will be recorded in litres.
Time frame: The baseline assessment will be conducted at 2 weeks post-surgery. Following the completion of the 8-week intervention protocol, the final assessment will be performed at 10 weeks post-surgery.
FEV1/FVC ratio
FVC and FEV1 results will be compared and expressed as percentages.
Time frame: The baseline assessment will be conducted at 2 weeks post-surgery. Following the completion of the 8-week intervention protocol, the final assessment will be performed at 10 weeks post-surgery.
Forced expiratory flow 25-75% (FEF25-75) assessment
Patients will perform a rapid and complete inhalation maneuver from functional residual capacity to total lung capacity, followed by a continuous and maximal exhalation maneuver lasting at least six seconds. Verbal and non-verbal encouragement will be provided throughout the maneuvers. The test will be terminated once acceptable repeatability is achieved. The results will be expressed in litres per second.
Time frame: The baseline assessment will be conducted at 2 weeks post-surgery. Following the completion of the 8-week intervention protocol, the final assessment will be performed at 10 weeks post-surgery.
Peak expiratory flow (PEF) assessment
Patients will perform a rapid and complete inhalation maneuver from functional residual capacity to total lung capacity, followed by a continuous and maximal exhalation maneuver lasting at least six seconds. Verbal and non-verbal encouragement will be provided throughout the maneuvers. The test will be terminated once acceptable repeatability is achieved. The results will be expressed in litres per minute.
Time frame: The baseline assessment will be conducted at 2 weeks post-surgery. Following the completion of the 8-week intervention protocol, the final assessment will be performed at 10 weeks post-surgery.
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