Description

Breathing is one of the most fundamental biological functions that sustain life. The intake of oxygen and the expulsion of carbon dioxide are essential for sustaining life. Today, respiratory system diseases are among the major health problems worldwide, and according to World Health Organization (WHO) data, they are expected to be the third leading cause of death by 2030. Typical symptoms of these diseases include shortness of breath, coughing, depression/anxiety, fatigue, and pain. The intercostal muscles, which are among the muscles that assist in breathing, are located in the spaces between the ribs and play an important role in the expansion and contraction of the chest cavity. The external intercostal muscles are active during inspiration, while the internal intercostal muscles are active during expiration. The optimal strength and flexibility of these muscles directly affect the efficiency of lung ventilation. Osteopathic manual therapy (OMT) is a treatment approach based on the holistic relationship between body structure and function, aiming to increase structural mobility through various manual techniques. The American Osteopathic Academy describes OMT as a series of techniques focused on the principle that body structure and function are interdependent. Although OMT is not yet included among the standard treatment approaches for respiratory system diseases, it is gaining increasing attention as a complementary method to support thoracic mobility and lung function (intervertebral joints, costovertebral joints, bone structure, all ligaments, muscles, and fascia). The literature reports that applications targeting the intercostal region have positive effects such as an increase in tidal volume, improvement in chest expansion, and a decrease in dyspnea levels. Furthermore, it is stated that increased muscle activity in the intercostal muscles may lead to improvements in respiratory volume and capacity. However, the number of randomized controlled trials designed to attribute these effects solely to intercostal mobilization and conducted on young, healthy individuals is quite limited. This study aims to evaluate the effects of intercostal mobilization applications on respiratory muscle strength, respiratory function parameters, and performance in the increased-rate shuttle run test. Conducted using a randomized controlled design, this research aims to contribute to the development of evidence-based new approaches to respiratory rehabilitation.