View clinical trials related to Inspiratory Muscle Training.
Filter by:Recovery after lung transplantation (LTx) may be complicated by prolonged mechanical ventilation (MV) and protracted intensive care unit (ICU) stay leading to immobilization and impaired health-related quality of life (HRQoL). In the critical care setting, diaphragm atrophy and weakness have been associated with difficulty weaning from MV, increased risk for readmission to hospital or ICU, and increased mortality. Increasing respiratory muscle strength by inspiratory muscle training (IMT) as part of pre-rehabilitation mitigates respiratory muscle dysfunction peri-operatively and may reduce the risk of post-operative complications. However, IMT is not widely used prior to LTx and the benefits of pre-operative IMT on post-transplant outcomes in LTx candidates have not been studied. Objectives: 1) To evaluate the feasibility of a randomized clinical trial of IMT in LTx candidates in terms of recruitment rate, retention, program adherence, safety and outcome ascertainment. 2)To establish whether IMT improves pre-transplant dyspnea perception, diaphragm structure and function, HRQoL and post-transplant ICU, hospital and 3-month outcomes. 3)To characterize the effect of pre-transplant IMT on peri-transplant diaphragm myofibrillar cross-sectional area, oxidative capacity, inflammatory markers and diaphragm muscle thickness and function. Methods: Prospective study of 50 LTx candidates recruited from the pulmonary rehabilitation program at University Health Network (UHN). Participants will have baseline evaluations of maximal inspiratory pressure (MIP), dyspnea, respiratory muscle endurance, diaphragm thickness and thickening fractions, as well as health-related quality of life questionnaires. After baseline assessments, participants will be randomized to the two study groups: IMT or usual care. IMT will be progressed weekly (max of 70% total MIP) until transplant. Participants will have repeat assessments (from baseline) at 4,8 and 12 weeks and then every 3 months until transplant (final assessment 3 months post-LTx).
The current "Global Initiative for Chronic Obstructive Lung Diseases" (GOLD) guideline emphasizes that pulmonary rehabilitation should be recommended to all chronic obstructive pulmonary disease (COPD) patients from Stage II onwards. Respiratory muscle training applied to individuals with COPD is an important part of pulmonary rehabilitation due to its benefits such as improving pulmonary function and respiratory muscle strength, reducing the severity of dyspnea, and increasing exercise capacity and quality of life. Although there is sufficient evidence in the literature about the benefits of IMT in individuals with COPD. There is little evidence showing the effects of EMT. Studies show that isolated IMT and EMT are effective in increasing respiratory muscle strength, endurance and exercise capacity. Results from a limited number of studies show that combined training of IMT and EMT is superior compared to isolated IMT or isolated EMT in improving exercise capacity and dyspnea. Incentive spirometers, with their different mechanical properties, are low-cost respiratory exercise devices that are widely used in the early postoperative period, lung diseases, long-term bed rest and in situations where it is necessary to maintain or increase the ventilation ability of the lung, but they do not apply any resistance to the respiratory muscles. In the pulmonary rehabilitation guidelines published by the American Thoracic Society (ATS) and the European Respiratory Society (ERS), the necessity of using devices that apply resistance to the respiratory muscles to strengthen the respiratory muscles is underlined. The personalized respiratory exercise device will be a device that has the clinical features of an incentive spirometer and respiratory muscle training devices (inspiratory and expiratory) and can be personalized according to the desired purpose. With the same device, patients will be able to both improve lung ventilation, such as an incentive spirometer, and strengthen their respiratory muscles.
Stroke, which can occur due to many different reasons and is one of the most common neurological conditions, is one of the leading causes of disability worldwide. The most common disorders that occur after stroke are motor disorders. In addition, these patients may be accompanied by respiratory problems such as changes in breathing patterns and decreased ventilation function. Respiratory problems are an important risk factor for the development of long-term mortality for both cardiovascular diseases and stroke. With all these changes, there is a serious decrease in the activity performance of the patients. While stroke rehabilitation focuses on motor function losses, problems in pulmonary functions do not receive the necessary attention. Evaluating and treating patients from every aspect in stroke rehabilitation will further increase the effectiveness of the treatments applied. Ultrasonography (USG), which has been used in the field of healthcare for more than 40 years, works with a mechanism based on the principle of sound waves traveling and reflecting at different speeds in tissues of different densities. USG is a very useful and effective imaging method used by modern medicine as a part of examination and patient care, based on its advantages such as sound waves being harmless to living beings because they are non-ionizing, the image being real-time and being viewable at the time of the procedure, being a non-invasive method, and being inexpensive. This study will be included in the literature as an original study in terms of examining both the development of the patients and the effectiveness of the treatment in many aspects, with many parameters obtained by ultrasonography in subacute stroke patients who will receive respiratory muscle training.
Inspiratory muscle training for 8 weeks in patients with chronic thromboembolic pulmonary hypertension.