The Effect of Airway and Chest Wall Oscillation on Respiratory Functions in COPD Patients in Acute Exacerbation

Not Applicable

Recruiting

• Conditions: COPD Exacerbation Acute
• Interventions: Device: PEP DEVICE; Device: HFCWO DEVICE; Other: CONTROL

• Registration Number: NCT06274957
• Lead Sponsor: Saglik Bilimleri Universitesi

Brief Summary

Chronic obstructive pulmonary disease (COPD); It is a common, treatable and preventable disease characterized by progressive and irreversible airflow limitation and has systemic effects with respiratory system involvement. Increased respiratory workload, decreased work .

Detailed Description

Chronic obstructive pulmonary disease (COPD); It is a common, treatable and preventable disease characterized by progressive and irreversible airflow limitation and has systemic effects with respiratory system involvement. Increased respiratory workload, decreased work of breathing in patients are important factors that cause respiratory and peripheral muscle strength and functional capacity exercise intolerance. It is defined as an exacerbation if there is an increase in shortness of breath, cough, sputum amount and purulence, which necessitates a change in treatment in the COPD patients. In the guides; Individualized exercise training for disease management is an essential component of these programs. In the literature; Although there are many studies showing the beneficial effects of traditional exercise training programs in patients with COPD, physiotherapy applications used in the exacerbation period are recommended, but there are not many studies examining the device technologies used in this area. In this period, devices that provide chest wall oscillation and airway oscillation can be preferred for the symptomatic treatment of increasing cough and sputum complaints. There is no study comparing these two methods that we know of. Our study will be carried out on 33 patients hospitalized in the Pulmonology Service of the Health Sciences University Gülhane Training and Research Hospital, followed up with the diagnosis of COPD exacerbation, who met the inclusion criteria and accepted to participate in the study on a voluntary basis. Patients will be randomized into 3 groups as 2 experiments and 1 control. Measurements of patients admitted to the ward will be made at the beginning and end of the study. Socio-demographic data of the patient, chest circumference measurement, COPD assessment test, mMRC dyspnea scale, BODE index, pulmonary function test, arterial blood gas, chest X-ray, 30-second sit and stand test, Richard-Campbell Sleep Scale, Clinical COPD Questionnaire, Charlson comorbidity index will be applied. Pursed-lip breathing, active breathing techniques cycle, bronchial hygiene techniques, mobilization, calisthenic exercises and patient education (teaching relaxation positions and energy conservation techniques) will be applied to the patients in the study and control groups during their hospitalization. Chest wall oscillation will be practiced together with chest physiotherapy in the 1st experimental group, and airway oscillation will be practiced in the 2nd experimental group with the same physiotherapy program. In the study, the clinical use and technical features of the devices will be examined.

Study Timeline

• Study First Submitted: 2024-02-02
• Study First Submitted QC: 2024-02-16
• Study First Posted: 2024-02-23
• Status Verified: 2024-05
• Study Start: 2024-05-01
• Last Update Submitted: 2024-05-29
• Last Update Posted: 2024-05-30
• Primary Completion: 2024-06-10
• Study Completion: 2024-06-17

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 27

Inclusion Criteria

• Being classified as GOLD stage 3 or 4 based on spirometric evaluation in the medical history.
• Having a hospital admission within the specified time frame, evaluated by a pulmonary specialist, and admitted to the pulmonary diseases service with a diagnosis of COPD exacerbation.
• Being 40 years of age or older.
• Voluntarily agreeing to participate in the study.

Exclusion Criteria

• Having a hospital admission with a diagnosis of asthma attack in the last 5 years.
• Monitoring suspicious focal points for pneumonia on lung radiology.
• Hospitalization due to reasons other than exacerbation despite having a diagnosis of COPD.
• Presence of pulmonary fibrosis or suspicious findings of fibrosis on radiology.
• Systemic fungal infections.
• Having cognitive impairment affecting the decision to participate in the study, such as confusion, orientation disorder, or dementia.
• Patients with lung cancer or metastasis in the lungs.
• Diagnosis of conditions provoking shortness of breath other than COPD exacerbation, such as pneumonia, pneumothorax, heart failure, and pulmonary embolism.
• Presence of a new-onset rhythm disorder or ischemic changes requiring intervention on the EKG, excluding sinus tachycardia and multifocal atrial tachycardia.
• Chronic kidney failure requiring hemodialysis.
• Patients with conditions causing weakness in the lower extremities, such as arthritis, neurological disease, deep vein thrombosis, peripheral artery disease, muscle weakness, fractures, osteoarthritis, etc.
• Having ankylosing spondylitis with a Cobb angle of 10 degrees or more in the radiographic evaluation of the vertebral column.
• Having undergone surgery on the upper extremities, lower extremities, neck, and back.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Positive Expiratory Pressure	PEP DEVICE	We applied PEP (positive expiratory pressure) therapy in adddition to the conventional exercises
High Frequency Chest Wall Oscillation	HFCWO DEVICE	We applied HFCWO (High Frequency Chest Wall Oscillation) in addition to the conventional exercises
control	CONTROL	Conventional training was applied to the patients

Primary Outcome Measures

Name	Time	Method
mMRC dyspnea scale	The first and last day of the training will be measured an avarage 7 days	The perception of dyspnea in patients will be assessed using the mMRC dyspnea scale. This scale, modified by ATS, evaluates dyspnea and limitations in daily life activities. Patients are asked to choose the most suitable expression from the five statements ranging from '0-4' (0: Only shortness of breath during heavy exercise; 4: Being housebound due to breathlessness, experiencing shortness of breath even during light activities such as dressing and undressing) to describe their own perception of dyspnea. The scale developed by Richards in 1987 consists of 6 items assessing the depth of nocturnal sleep, sleep onset latency, frequency of awakening, duration of wakefulness upon awakening, sleep quality, and ambient noise level. Each item is evaluated on a visual analog scale ranging from 0 to 100. Scores between "0-25" indicate very poor sleep, while scores between "76-100" indicate very good sleep. The scale's total score is assessed based on 5 items, excluding the 6th item evaluating
Richard-Campbell Sleep Questionnaire	The first and last day of the training will be measured an avarage 7 days	The scale developed by Richards in 1987 consists of 6 items assessing the depth of nocturnal sleep, sleep onset latency, frequency of awakening, duration of wakefulness upon awakening, sleep quality, and ambient noise level. Each item is evaluated on a visual analog scale ranging from 0 to 100. Scores between "0-25" indicate very poor sleep, while scores between "76-100" indicate very good sleep. The scale's total score is assessed based on 5 items, excluding the 6th item evaluating ambient noise level from the overall score. As the score on the scale increases, patients' sleep quality also improves. The Cronbach's alpha value for the scale, developed by Richards, was found to be 0.82. The Turkish validity and reliability of the scale were conducted by Özlü and Özer, revealing a Cronbach's alpha value of 0.91
COPD assessment test	The first and last day of the training will be measured an avarage 7 days	The COPD assessment test (CAT) includes eight items related to the severity of dyspnea, exercise capacity, cough, sputum, chest tightness, sleep quality, self-confidence, and energy levels. The CAT is a short and simple instrument to evaluate COPD patients, and its validated translations are present in a broad range of languages in the world. Additionally, the CAT is correlated with quality of life. According to the GOLD guidelines, patients with CAT score of ≥10 or mMRC score of ≥2 represents have more prominent symptoms. The cutoff points of more symptoms for CAT score ≥10 was validated in COPD. This threshold has been detected to have an important impact on the daily lives of patients with COPD.
30 second sit and stand	The first and last day of the training will be measured an avarage 7 days	test is primarily used for evaluating function and physical performance associated with mobility, and is suggested as an acceptable alternative method for assessing functional capacity in COPD. The patient, who has received medical treatment in an environment equipped with a chair with a seat height of approximately 44 cm and a backrest, preferably without armrests, a stopwatch, oxygen support if needed, a blood pressure monitor, and a defibrillator, and has not engaged in heavy activity in the last 2 hours, will be explained the test procedure in a comprehensible manner. Resting blood pressure, oxygen saturation, pulse, and modified Borg dyspnea score will be recorded. The patient will be instructed to cross their arms and touch both shoulders, then sit and stand up from the chair for 30 seconds in this position. At the end of the test, blood pressure, oxygen saturation, pulse, modified Borg dyspnea score, and the number of sit-to-stand repetitions within 30 seconds will be record
BODE index	The first and last day of the training will be measured an avarage 7 days	The BODE index has been developed to assess the mortality risk in patients with COPD. The BODE index comprises parameters such as BMI (Body Mass Index), the severity of airflow limitation, perceived degree of dyspnea, and exercise capacity. BMI will be calculated using the weight/height² formula, the severity of airflow limitation will be assessed by FEV1 % predicted, the perceived degree of dyspnea will be evaluated using the mMRC scale, and exercise capacity will be determined with the 6MWT (6-Minute Walk Test) in patients with COPD.
Modified Borg Scale	The first and last day of the training will be measured an avarage 7 days	This scale was developed by Borg in 1970 for the purpose of measuring the perceived exertion during physical exercise. It is commonly used to assess the intensity of dyspnea during effort and at rest. Comprising ten grades that describe the severity of dyspnea, the Modified Borg Scale (MBS) makes it easier for patients by providing clear definitions for the intensity of dyspnea
muscle strenght test	The first and last day of the training will be measured an avarage 7 days	Muscle strength testing is used to determine the capability of the muscle or muscle group to produce force. It provides information that is useful in differential diagnosis, prognosis and management of neuromuscular and musculoskeletal disorders. its evaluating muscle strength is the Oxford Scale (AKA Medical Research Council Manual Muscle Testing scale). This method involves testing key muscles from the upper and lower extremities against the examiner's resistance and grading the patient's strength on a 0 to 5 scale accordingly
Clinical COPD Questionnaire	The first and last day of the training will be measured an avarage 7 days	The Clinical COPD Questionnaire, developed by Thys Van der Molen, consisting of 10 items (4 items for symptoms, 4 items for functional status, and 2 items for mental status) assessing clinical control for the purpose of evaluating functional status, mental status, and symptoms, will be administered to all cases. In a study conducted by Reda and colleagues in 2010, it was demonstrated that the Clinical COPD Questionnaire is a valid, reliable, and sensitive tool for use in individuals at risk of COPD and in COPD patients
chest circumference measurements	The first and last day of the training will be measured an avarage 7 days	To assess chest mobility and respiratory type, chest circumference measurements will be taken using a tape measure at axillary (at the level of the 4th rib), epigastric (at the xiphoid process level), and subcostal (above the 11th and 12th ribs) regions. Measurements will be taken in an upright sitting position, during neutral, deep inspiration, and deep expiration. The difference between deep inspiration and deep expiration will be recorded in centimeters

Trial Locations

Locations (1)

University of Health Sciences; 🇹🇷 Istanbul, Turkey