Inhalation injury is a composite of multiple insults including: supraglottic thermal injury, subglottic airway and alveolar poisoning, and systemic poisoning from absorbed small molecule toxins. These contaminant insults independently affect each of the pulmonary functions as well as having a direct effect on systemic physiology. Further, anatomic characteristics can predispose patients to inhalation injury. For example, an infant will develop airway obstructions much faster than an adult due to reduced airway diameter. Understanding the contributions of each of these pathologies to the patient's disease is critical to managing inhalation injury.
Extra lung mucus secretions, injured mucosa, contaminants, and aspirated substances should be handled in their early stages. In the case of fibrinous material transudates, compromised mucociliary secretions and mucosal slough must be cleared. There are different methods to assist the clearance of secretions as bronchoscopy, ventilator, mucolytics, suction, and chest physiotherapy. In Pilates method (PM), several muscles are activated, including the muscles involved in breathing, especially to improve the expiratory function, which remains contracted during the inspiratory and expiratory phase. Breathing control is fundamental during the execution of PM exercises, where the practitioner learns how to breathe properly as an essential part of each exercise through forceful exhaling followed by complete inhaling. Thus, adequate breathing aids in controlling movements, and therefore, the method can be regarded as an indirect strategy for respiratory muscle training. It is known that poor control of breathing can result in compensation and lung volumes and respiratory muscle performance, with several factors involved.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
60
One-hour Pilates exercise program was given by a certified trainer to patients three times per week for 12 weeks. The exercise program followed the basic principles of the Pilates method. Our protocol comprised the following components of Pilates-based exercises: strength and stabilization, flexibility and range of motion, proper body alignment, balance, coordination, and body awareness. Resistance bands and 26 cm Pilates balls were used as supportive equipment. The exercise sections consisted of 5 minutes breathing, 10 minutes warm-up, 35 minutes conditioning phase and 10 minutes cool-down.
Diaphragmatic deep breathing exercises, bronchial hygiene techniques, assisted cough, stretching exercises and ROM exercises for both upper and lower limbs for 45 minutes, 3 days/ week for 12 weeks.
Faculty of Physical Therapy
Giza, Egypt
Forced vital capacity (FVC)
Forced vital capacity (FVC) will be measured by using spirometer
Time frame: 12 weeks
forced expiratory volume in 1 second (FEV1)
forced expiratory volume in 1 second (FEV1) will be measured by using spirometer
Time frame: 12 weeks
peak expiratory flow (PEF)
peak expiratory flow (PEF) will be measured by using spirometer
Time frame: 12 weeks
Respiratory muscle strength
The inspiratory muscle strength will be verified by means of the maximum inspiratory pressure (MIP) and the expiratory muscular strength by means of maximum expiratory pressure (MEP) by using the digital Manovacuometer
Time frame: 12 weeks
Functional capacity
By using 6-Minute Walk Test (6-MWT) that measures the maximum distance walked in a period of 6 min to assess the submaximal level of the functional capacity of the participants
Time frame: 12 weeks
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