There is insufficient evidence of inspiratory muscle training on venous function, clinical severity, symptoms and functional capacity and quality of life in CVI patients. Therefore, in the study, the investigators aimed to determine the effectiveness of inspiratory muscle training in individuals with chronic venous insufficiency.
Chronic venous insufficiency (CVI) is defined as a very common condition that affects the venous system in the lower extremities, including various pathologies and subjective symptoms such as pain, cramps, restlessness in the legs, edema, itching and skin changes. CVI is a disease that develops due to venous hypertension in the lower extremities, resulting in impaired turbulent flow fields, venous distention, free radical formation and inflammation. In addition to being a cosmetic problem, symptoms such as pain, itching, burning, tingling, night cramps, edema, skin changes and venous ulcers in chronic cases can be seen. It is seen between 5-30% in the adult population. CVI affects 40% of the general population. Because of its high prevalence, chronic venous diseases are a common condition that causes major socioeconomic impacts. According to the studies; it has been observed that 32% of women and 40% of men have varicose veins, and any type of venous disease affects 40-50% of men and 50-55% of. The main clinical features of CVI are dilated veins, edema, leg pain, muscle cramps, and cutaneous changes in the leg. Edema begins in the perimalleolar region and ascendes up the leg. Leg restlessness is often described as heaviness or pain after prolonged standing and is relieved by leg elevation. This discomfort is caused by increased intracompartmental and subcutaneous volume and pressure. Venous valves and venous pump are the two major determinants of venous flow. Venous valves play a role in directing the flow from the superficial system to the deep system and in its progression from the proximal veins to the distal veins. Venous function is reflected in venous return, venous resistance, and its effects on cardiac output. Venous filling time is a parameter of venous function and is shortened as a result of valve insufficiency, vessel wall enlargement and inability of muscle pumps to work actively. The calf muscles compress the deep intramuscular veins, diverting blood flow from the veins to the heart. This mechanism depends on talocrural mobility and the force of contraction of the calf muscles. However, muscle pump dysfunction is not limited to the calf, but also includes inspiratory muscle dysfunction, such as when the diaphragm allows greater blood flow to the heart from the lower extremities, creating a suction effect on the inferior vena cava during inspiration and expiration. It has been shown that the respiratory cycle affects the increase of deep inspiration and the flow rate of the femoral vein and venous return in healthy individuals. When inspiratory muscle strength is insufficient, blood flow in the leg veins will decrease, increasing vascular resistance and thus systemic refill can be reduced. Increasing the muscle strength of inspiration with inspiratory muscle training is considered to increase venous return and improve symptoms of CVI, including pain and edema. However, there is insufficient evidence of inspiratory muscle training on venous function, clinical severity, symptoms and functional capacity and quality of life in CVI patients. Therefore, in the study, the investigators aimed to determine the effectiveness of inspiratory muscle training in individuals with chronic venous insufficiency.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
SUPPORTIVE_CARE
Masking
SINGLE
Enrollment
40
Inspiratory muscle training will be done for 15 minutes/session, 2 times/day, or 30 minutes/day if tolerated, 5-7 days/week (one under supervision and others at home), for a total of 6 weeks. Applications made at home will be followed with a diary. Inspiratory muscle training will be performed using an inspiratory muscle training device (PowerBreathe®) working with the threshold loading principle.In the first week of the training, 30-50% of the maximal inspiratory pressure (MIP) measured in the initial evaluation of the individual will be adjusted according to the patient's tolerance, and inspiratory muscle training will be performed. Respiratory muscle strength measurement will be repeated every week in the individuals in the training group. 30-50% of the new MIP value obtained will be calculated and adjusted by calculating the new training workload for the application of inspiratory muscle training in the following weeks
Individuals in this group will be given thoracic expansion exercises and patient education. Thoracic expansion exercises will be applied to individuals in an upright sitting position. In this position, individuals will place their hands on their lower ribs and then perform the cycle of "inhale a deep breathing + holding the deep breath for 3 seconds + slowly exhale all the breath" 3 times in a row. After this cycle, individuals will be asked to rest by taking 3-4 calm breaths. Immediately after, the individual will be asked to repeat the same cycle and repeat the cycle with calm breaths and rest until it reaches 10 repetitions. The individual will do this session 4 times a day. Individuals will do the first session of breathing exercises under supervision. In this way, incorrect exercise will be prevented. Other breathing exercise sessions will be done by individuals as a home program every day and 4 sessions a day during 6 weeks.
Izmir Democracy University
Izmir, Karabağlar/İZMİR, Turkey (Türkiye)
Maximal inspiratory pressure (MIP)
The MIP which shows respiratory muscle strength will be evaluated using a portable mouth pressure measuring device based on American Thoracic Society and European Respiratory Society criteria.
Time frame: After 6-week training
Maximal expiratory pressure (MEP)
The MEP which shows respiratory muscle strength will be evaluated using a portable mouth pressure measuring device based on American Thoracic Society and European Respiratory Society criteria.
Time frame: After 6-week training
Forced vital capacity (FVC)
Pulmonary function (Forced vital capacity (FVC)) will be evaluated with a spirometer. In the study, measurements will be made using the Cosmed Omnia microQuark 1.5 (Cosmed, Rome, Italy) device. Considering that dizziness may occur during forced expiration, measurements will be made while individuals are in a sitting position. While participants are sitting in a comfortable position in a chair with a backrest, nose clip will be attached and they will be asked to bite the mouthpieces with their teeth and close their lips in a way that does not allow air to escape. The tests will be performed at least 3 times by the participants and care will be taken to ensure that the expiration time is at least 6 seconds and the plateau time is 1 second. Due to the device software that records all three data, it saves the average of the two best data and processes it as a value.
Time frame: After 6-week training.
Forced expiratory volume in the first second (FEV1)
Pulmonary function (Forced expiratory volume in the first second (FEV1)) will be evaluated with a spirometer.
Time frame: After 6-week training.
FEV1 / FVC
Pulmonary function (FEV1 / FVC) will be evaluated with a spirometer.
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.
Time frame: After 6-week training.
Flow rate 25-75% of forced expiratory volume (FEF 25-75%)
Pulmonary function (Flow rate 25-75% of forced expiratory volume (FEF 25-75%)) will be evaluated with a spirometer.
Time frame: After 6-week training.
Peak flow rate (PEF)
Pulmonary function (Peak flow rate (PEF)) will be evaluated with a spirometer.
Time frame: After 6-week training.
Aerobic capacity assessment
The six-minute walk test (6-MWT) will be performed according to the criteria of the American Thoracic Society for the evaluation of aerobic capacity.
Time frame: After 6-week training.
Lower extremity strength
To determine lower extremity strength and functional mobility, the 30-second Sit-Up Test will be used in the chair
Time frame: After 6-week training.
Edema assessment
It is planned to evaluate the edema in the lower extremity by measuring the circumference with a tape measure. Both legs will be recorded separately and the difference will be calculated. A bendable, non-elastic, 7 mm wide standard tape measure with an accuracy of 0.1 cm will be used for circumference measurements. The "0" (zero) end of the tape measure will be wrapped around the area to be measured, with the "0" (zero) end in the left hand and the other end in the right hand, and the number above the "0" (zero) point will be noted
Time frame: After 6-week training.
Quality of life assessment
Quality of life will be evaluated using Chronic Venous Disease Quality of Life Questionnaire (CIVIQ-20).CIVIQ-20 is a quality of life survey that contains 20 questions and is specific for Chronic Venous Insufficiency, encompassing four quality of life domains: physical, psychological and social impairment and the severity of pain. There is a 5-point answer rating in each question, according to which higher scores indicate more severe impairment. There is a score varying from 0 to 100 in the CIVIQ-20 where the higher scores indicate better quality of life.
Time frame: After 6-week training.