COPD is a common, preventable and treatable disease associated with an increased chronic inflammatory response of the airways and lungs to harmful gases and particles and characterized by progressive airflow restriction, which is usually progressive. Exercise intolerance is one of the most important outcomes of COPD. Dyspnea and leg fatigue are the main symptoms that limit exercise and patients restrict their activity to avoid these disturbing conditions. Exercise training is the most appropriate method for improving exercise tolerance and muscle function. It is considered and recommended by ERS and ATS as an essential component of PR. Endurance training is considered to be one of the most important components of the PR program. Walking, running, cycling, stair climbing, dancing are examples of endurance exercises. Dance-based exercise training; It is an entertaining method that increases physical, functional, cognitive, emotional and social integration. This alternative method has frequently been tried in the literature in the treatment of Parkinson's, cancer and psychiatric diseases and its effects on functional capacity, balance, and quality of life have been demonstrated. The importance of our research; This is the first study to apply dance based exercise training in chronic respiratory diseases. The aim of this study was to investigate the effect of creative dance based exercise training on respiratory, balance and cognitive functions, respiratory and peripheral muscle strength and functional capacity in COPD patients.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
DOUBLE
Enrollment
24
Conventional chest physiotherapy programme will include diaphragmatic breathing exercise, thoracic expansion exercises, incentive spirometer exercise (Triflo), teaching of respiratory control, relaxing and coughing techniques.
Creative dance based exercise training will be given under the supervision of a physiotherapist who takes creative dance instructor training 2 days and 60 minutes per week.
Bezmialem Vakif University, Department of Physiotheraphy and Rehabilitation
Istanbul, Turkey (Türkiye)
Respiratory Function Test
Change from baseline forced vital capacity (FVC) at 8 weeks.
Time frame: Eight weeks
Respiratory Function Test
Change from baseline forced forced expiratory volume in 1 second at 8 weeks.
Time frame: Eight weeks
Respiratory Function Test
Change from baseline peak expiratory flow (PEF) at 8 weeks.
Time frame: Eight weeks
COPD Assessment Test (CAT)
Change from baseline CAT score at 8 weeks.
Time frame: Eight weeks
BODE Index
Change from baseline BODE score at 8 weeks.
Time frame: Eight weeks
Balance
Change from baseline postural stability test score in BIODEX Balance System at 8 weeks.
Time frame: Eight weeks
Balance
Change from baseline limits of stability test score in BIODEX Balance System at 8 weeks.
Time frame: Eight weeks
Respiratory Muscle Strength
Change from baseline maximum inspiratory pressure at 8 weeks.
Time frame: Eight weeks
Respiratory Function Test
Change from baseline maximum expiratory pressure at 8 weeks.
Time frame: Eight weeks
Functional Capacity
Change from baseline distance covered in six minute walk test at 8 weeks.
Time frame: Eight weeks
Change from baseline handgrip strength at 8 weeks.
Change from baseline m. quadriceps strength at 8 weeks.
Time frame: Eight weeks
Change from baseline handgrip strength at 8 weeks.
Change from baseline m. biceps strength at 8 weeks.
Time frame: Eight weeks
Change from baseline handgrip strength at 8 weeks.
Change from baseline handgrip strength at 8 weeks.
Time frame: Eight weeks
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