View clinical trials related to Respiratory Muscle Strength.
Filter by:Functional Movement Screen (FMS) is a battery used for injury prediction, identifying asymmetry and weak connections in basic functional movement patterns. The muscles assessed in FMS are also respiratory muscles. Therefore, FMS scores were thought to be related to respiratory muscle strength. The aim of our study was to examine the relationship between Functional Movement Screen and respiratory muscles strength in professional football players and sedentary individuals.
The current study aimed to investigate the effect of inspiratory muscle training (IMT) on pulmonary functions (FEV1and FVC), and respiratory muscle strength in patients with inhalation injury, which may prove to be a promising intervention helping to improve exercise tolerance, relieve dyspnea and suggests an improvement in respiratory muscle function.
In this study the investigators will examine the effects of core stabilization exercises on respiratory muscle strength, respiratory functions and postural control in hearing-impaired children.
Cerebral palsy (CP) can be defined as a group of disorders of movement and posture, causing activity limitation that are attributed to nonprogressive deficits that take place in the immature brain. The motor disorders of CP are often accompanied by deficits in sensation, cognition, communication, perception, behavioral and respiratory system . Children with CP have many primary motor impairments such as selective mobility, muscle weakness, abnormal muscle tone, impaired coordination between agonist-antagonist muscles and insufficient postural control. These motor impairments also lead to secondary problems such as contractures and bone deformities. Whether primer or secondary, all these problems can reduce independence in activities of daily living (ADL) by affecting CP children at different levels. There are several studies in children with CP that investigate the effects of trunk control and/or respiratory functions. However, there are very few studies examining the relationship of these functions which have direct effects on ADL. In these studies, the functions of children who are more heavily affected and unable to move have been examined. However, there are no studies examining the effect of trunk control on respiratory muscle strength in children with CP with a better mobility level. There are many factors affecting both trunk control and respiratory functions in these children. Therefore, in children with CP, who have better functional level and can move on their own, revealing the interaction between trunk control and respiratory functions may contribute significantly to the treatment process. For this reason, this study was planned to investigate the effect of trunk control on ADL and respiratory muscle strength in children with CP having a Gross Motor Functional Classification System (GMFCS) levels of 1 and 2 and to compare them with healthy children.
Pulmonary hypertension (HP) is a progressive pathological condition presents with vascular changes in the lung. Cardiopulmonary changes in PH are considered the main limiting factor, however, it is known that the muscular alterations potentiate the symptomatology. Several HP factors and mechanisms have an impact on peripheral and respiratory muscle changes, so, specifically, respiratory muscles are also altered in patients with PH. In the face of respiratory muscle weakness, inspiratory muscle training (IMT) has been shown to increase respiratory muscle strength and functional capacity in chronic conditions such as obstructive pulmonary disease (COPD) and heart failure (HF). The objective of this study is to test whether a 12-week TMI protocol is capable of impacting functional capacity, respiratory muscle strength, spirometric values and quality of life in patients with PH.
Respiratory muscle strength training (RMST) is a potential treatment option that has been shown to increase strength and ventilatory function in critically ill patients, patients on ventilators and patients with mild neuromuscular weakness. Currently researchers are examining the role of inspiratory muscle strength training (IMST) in pressure performance of ventilator dependent children with Pompe disease. However, normal pressure-flow-timing responses of lung function are not well-characterized in healthy children. The purpose of this study is to measure RMST-induced changes in respiratory function in healthy children. Children will undergo one session of lung function and strength testing. By studying healthy children's respiratory function, this study will also help to develop more efficient respiratory muscle training exercise prescriptions for children with neuromuscular weakness and impaired respiratory function.