Overview
The purpose of this study is to investigate if there is any effect of the respiratory training on cardiopulmonary functions in patients with upper cross syndrome post-cardiac surgery.
- Hypothesis
Null hypothesis: There is no effect of the respiratory training on pulmonary functions in patients with upper cross syndrome post-cardiac surgery.
Description
Sixty post-CABG-male-patients (n=60) with upper cross syndrome, their age ranges from 45 to 55 years old, are selected from Elbank-Elahly hospital (out-patient clinic), Cairo, Egypt. This randomized control study is performed after assessing and randomly assigning patients, (through using a computer program which generates random numbers), into two equal groups (30 patients for each group).
Respiratory training (study) group. Thirty patients (n=30) will receive respiratory muscles training and traditional physical therapy program for six weeks (three sessions/ week) for 40-60 minutes.
Traditional (control) group. Thirty patients (n=30) will receive the traditional physical therapy program for six weeks (three sessions/ week) for 40-60 minutes.
All subjects enrolled in the study are informed about the aim, technique, and experimental protocol of this study before participation. A written informed consent is assigned before participation.
After open-heart surgeries, patients with median sternotomy must restrict upper limbs movements that stretch the sternum, for 8 to 12 weeks after surgery, and avoid raising their arms above the head.
In addition, inappropriate posture such as forward head posture caused by the incision leads to upper cross syndrome. This causes an inability to perform activities of daily living, and chronic neck pain which adversely affects the respiratory system due to respiratory muscle imbalance.
Chronic neck pain (CNP), due to upper cross syndrome, is one of the most prevalent and costly musculoskeletal complaints associated with significant functional disability.
- Equipment
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- Evaluative equipment:
- Weight and height scales: To measure body weight and height to calculate BMI.
- Visual Analog Scale (VAS): To assess pain severity.
- Pressure biofeedback instrument: To measure endurance of deep cervical flexors (DCF).
- Electronic Spirometer: Digital-CONTEC-SP10-Spirometer-Lung-Breathing-Diagnostic-Vitalograph-Spirometry-Mode l CMS501 (Made in China), to measure ventilatory function test parameters.
- Evaluative equipment:
Forced expiratory volume in the first second (FEV1), Forced vital capacity (FVC), FEV1/FVC ratio. and Peak expiratory flow rate (PEFR).
5. Pittsburgh Sleep Quality Index. To measure sleep quality (Arabic version)
6. pulse oximetry. To measure HR, and SPO2 (Pulse Oximeter GRANZIA Model No: AS-304).
7. Sphygmomanometer: To measure ABP (Model Number: GT001-110/111 aneroid sphygmomanometer, Zhejiang, China)
8. Stopwatch. To measure six-minute walk test time.
9. Short Form 36 (SF-36) Health Survey Questionnaire: To measure quality of life.
B. Treatment equipment:
- Respiratory muscle trainer device (The Breather device).
- DCF muscles training device: Pressure biofeedback (Stabilizer TM, Chattanooga Group, Inc., Chattanooga, TN)
- Gymna electrotherapy device.
- EME ultrasound-therapy device.
- A 650-W infrared halogen lamp (Philips Electronics Industries)
- Procedure
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- Evaluation Procedures: All patients will follow the same evaluative procedures before (baseline) and after 12 weeks of treatment. (illustrated in the Outcome Measures section)
- Therapeutic procedures:
Respiratory training (study) group: Patients will receive:
- Respiratory muscles training: They will be asked to perform respiratory training through The Breather device beginning with the easiest setting. They will be instructed to inhale deeply and forcefully (at non fatigable resistance) for 2-3 seconds, slight pause, and then exhale forcefully for 2-3 seconds for 10 repetitions with 2 sets.
- Traditional physical therapy program in the form of:
- TENS: Conventional TENS will be applied at high frequency (from 50 Hz to 130 Hz), low intensity (comfortable, not painful) and small pulse duration (50 μs to 200 μs). By applying small surface electrodes on the neck paraspinal muscles for 20 minutes.
- Low-intensity continuous ultrasonic waves will be applied on the neck paraspinal muscles (trigger points of the trapezius muscles) for 10 minutes.
- Infrared radiation application will be used for 10 minutes: The lamp should cover the area over the upper back and neck regions.
- Cervical Stabilization exercise will be performed after three repetitions of stretching exercises for neck muscles as warm-up and cool-down exercises. Then, the exercise will be executed in supine position; the cuff will be put suboccipital. They will reach a 5mm Hg pressure target with increments of 2 mm Hg from a baseline of 20mm Hg to the ultimate level of 30mm Hg with hold for 10 seconds. The duration of contraction will gradually increase up to 10 seconds for each target level. Subjects will perform ten repetitions before progressing to the next target level.
Traditional (control) group: Patients will receive the traditional physical therapy program.
Eligibility
Inclusion Criteria:
- Sixty post-CABG-male-patients for at least three months and their age ranges from 45 to 55 years old.
- Craniovertebral angle < 51°, but not less than 30°.
- Non-specific chronic neck pain: defined as neck pain without an identifiable pathological cause and attributed to poor posture without radiation to upper limbs.
- VAS score between 3-7.
- Their body mass index ranges from (25 -29.9) kg/m2.
- Values of FEV1 and FVC lower than 80%
Exclusion Criteria:
- Rheumatoid arthritis, cervical disc pathology, and traumatic neck pain.
- History of respiratory disease and clinical signs of severe cardiac events.
- Neurological disorders which affect the diaphragm.
- Patients whose BMI is less than 25, or greater than 30 kg/m2.
- Smokers.
- Values of FEV1 and FVC higher than 80%
- Patients with chronic obstructive pulmonary disease or asthma.