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NCT07416929
The benefits of inspiratory muscle training (IMT) have been reported in neuromuscular diseases. However, its effects are limited. Further research is needed in new and complementary modalities demonstrating IMT efficacy in neuromuscular diseases. This study aimed to investigate the effect of combined IMT and manual therapy in neuromuscular diseases. Twenty-eight children with a diagnosis of muscle disease were included in the study. Only conventional physiotherapy program was applied to the control group. In the study group, in addition to the conventional physiotherapy program, manual therapy techniques were applied 3 days a week and IMT 2 times a day, 5 days a week for 6 weeks. Lung function test, respiratory muscle strength, fatigue and dyspnea assessment, corbin posture analysis, sit-reach test, functional reach test (FRT), timed up and go test (TUG), motor function measure (MFM) and trunk impairment scale (TIS) were used in the evaluations.
NCT06370832
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 multicenter randomized clinical trial of IMT in LTx candidates in terms of recruitment rate, retention, program adherence, and outcome ascertainment; (2) To establish the change in pre-transplant dyspnea perception, diaphragm structure and function, health related quality of life (HRQoL) and post-transplant intensive care unit (ICU), hospital and post-transplant 3-month outcomes with IMT relative to usual care group; and (3) To characterize the effect of pre-transplant IMT on peri-transplant diaphragm myofibrillar cross-sectional area (CSA), oxidative capacity, inflammatory markers and post-transplant diaphragm muscle thickness and function (UHN TGH site).
NCT07493837
The aim of this study is to investigate the effects of four weeks of land- and water-based inspiratory muscle training (IMT) on performance and selected physiological variables in young swimmers. A total of 30 competitive swimmers (22 males and 8 females), who have been training regularly for at least two years, will be voluntarily recruited and assigned to three groups: Land + IMT, Swimming + IMT, and Water + IMT. To compare the effects of different training protocols and evaluate their specific contributions to performance, participants will undergo assessments before the intervention and after the completion of the four-week training period. These assessments will include anthropometric measurements, pulmonary function tests, respiratory muscle strength, 100- and 200-meter freestyle swimming performance, stroke rate and stroke efficiency, as well as cardiopulmonary capacity. Previous studies investigating the effects of inspiratory muscle training in swimmers have generally applied the intervention in land-based settings and reported positive physical and physiological adaptations. However, to the best of our knowledge, no previous study has examined the effects of IMT performed in the water in swimmers. This novel approach is expected to better simulate the actual breathing demands encountered during swimming, thereby improving respiratory control, promoting a more efficient breathing rhythm during competition, and enhancing swimming performance.
NCT07469280
The purpose of this study is to evaluate the feasibility and effects of a 12-week high-intensity progressive Inspiratory Muscle Training (IMT) program in individuals with Class III obesity (BMI ≥ 40 kg/m²) and obstructive sleep apnea (OSA). Using a single-case experimental design (SCED) with multiple baselines, the study will investigate whether this respiratory intervention can reduce the severity of sleep apnea, as measured by the Apnea-Hypopnea Index (AHI), and improve inspiratory muscle strength and sleep quality. Participants will perform daily training sessions using a resistive loading device (POWERbreathe), with intensity progressing from 40% to 90% of their maximum inspiratory pressure.
NCT07406451
This randomized controlled trial investigated the effects of a four-week inspiratory muscle training (IMT) program on physical and motor performance parameters and shooting accuracy in elite male air pistol athletes. Twenty athletes were randomly assigned to either an IMT group or a control group. Outcome measures included jumping performance, reaction time, flexibility, and shooting accuracy assessed via the SCATT system. The findings demonstrated that IMT significantly improved lower-limb explosive power and shooting performance without affecting reaction time or flexibility.
NCT07188675
Bronchiectasis is a chronic respiratory disease clinically characterized by recurrent pulmonary exacerbations, chronic cough, and sputum production, and is associated with an increase in the airway-artery ratio and permanent airway dilatation. It is recognized as the third most common chronic respiratory disease after chronic obstructive pulmonary disease (COPD) and asthma. In the International Classification of Diseases and Related Health Problems (ICD-10), it has its own diagnostic code (J47.9). In bronchiectasis, mucociliary clearance is impaired due to bronchial dilatation, and the insufficient clearance of bacteria and mucus from the respiratory tract leads to persistent infection, inflammation, and further airway damage. Progressive airway damage results in impaired lung function, worsening of symptoms, and, ultimately, respiratory failure and death. It can represent the final pathway of various infectious, allergic, inflammatory, genetic, and degenerative disorders, making it one of the most complex and heterogeneous syndromes. Some patients present with daily symptoms, while others remain asymptomatic except during exacerbations. The most common symptom is chronic cough caused by purulent or mucopurulent sputum. Other symptoms include dyspnea, pleuritic chest pain, wheezing, fatigue, and weight loss. Fever, however, is not a common finding and differs from pneumonia. The most frequently used classification system categorizes bronchiectasis into varicose, cylindrical, and saccular (cystic) types. In the most severe form, the saccular type, the bronchi lose their structural integrity completely, forming cystic structures filled with secretions. The mildest form is cylindrical, in which the bronchi have thick, straight walls. In the varicose type, localized narrowings are observed. Diagnosis is made following history and physical examination, with high-resolution computed tomography (HRCT) being the most sensitive and specific method, along with sputum culture and chest radiography. The goals of bronchiectasis treatment are to manage symptoms, prevent complications, and improve quality of life. Both pharmacological and patient-managed interventions are commonly applied. Pharmacological treatments include antibiotics, bronchodilators, and corticosteroids, which are generally administered via inhalation. Patient-managed interventions require active participation and behavioral modification. Within published guidelines, airway clearance techniques are widely described under pulmonary rehabilitation (PR), but there is no consensus regarding PR itself. For individuals with reduced exercise tolerance, participation in PR and engagement in physical activity are recommended. However, research has shown that referral rates to PR are often low, and exercise and physical activity are not consistently prescribed. Within PR, techniques such as the active cycle of breathing techniques (ACBT), postural drainage, thoracic expansion exercises, and various airway clearance methods are applied, with inspiratory muscle training (IMT) forming an important component. Functional inspiratory muscle training (FIMT) is an IMT program developed by considering not only the ventilatory roles of the respiratory muscles but also their non-respiratory functions. FIMT integrates inspiratory muscle training with core stabilization and postural control exercises. The rhythmic co-contractions of the muscles in the core region support trunk stability and provide the basis for movement. In the first stage of the program, participants receive IMT, and subsequently, core stabilization training and dynamic trunk activation exercises are incorporated into the intervention. A review of the literature reveals that no studies have investigated the effectiveness of FIMT in adults with bronchiectasis. In our study, we aim to evaluate the effects of FIMT, applied in addition to home-based chest physiotherapy, on pulmonary function, diaphragm thickness, balance, core stability, functional capacity, physical activity, posture, and quality of life in adults with bronchiectasis. Furthermore, we aim to compare these outcomes with those of IMT applied alongside home-based chest physiotherapy. We believe that this approach will contribute to the development of treatment strategies in clinical practice and help address existing gaps in the literature.
NCT07246655
The aim of the randomized controlled study is to investigate the effects of high-intensity inspiratory muscle training on respiratory strength, balance, and core endurance in American Football (Tackle Football) athletes.
NCT07170891
In this study, a parallel two-group pre-test-post-test randomized controlled trial was conducted according to CONSORT guidelines. All participants and their parents were given detailed information about the study before it commenced, and written informed consent was obtained in accordance with the ethical principles described in the Declaration of Helsinki. Help was received from a third-level athletics coach for planning and implementing running exercises to be used in the project. The study was designed according to the rules of the Declaration of Helsinki and approved by the ethics committee for scientific research of Gümüşhane University (at its meeting on 20.09.2024 and number 2024/7; decision number E-95674917-108.99-282503). The aim of this study is to investigate the effects of additional inspiratory muscle training (IMT) on exercise tolerance, agility performance, and respiratory parameters in 10-12-year-old male football players who have been training regularly for at least two years, based on their chronotype. A power analysis was conducted using G\*Power 3.1 to determine the sample size of the study. The effect size (d) was found to be 1.12 (α = 0.05, 1-β = 0.95, η²p = 0.8). Based on this analysis, it was determined that a minimum of 20 participants per group was required. However, to mitigate potential issues, it was decided to include 25 participants, an additional 25%, in each group. Participants visited the laboratory three times. During the first visit, the familiarization procedure was performed; participants were administered the Morningness-Eveningness Scale for Children questionnaire and divided into 3 groups according to the results. Then, pulmonary function tests (PFT), maximum inspiratory pressure (MIP), expiratory pressure (MEP), six-minute walk test (6MWT), inspiratory muscle training (IMT), and running training procedures were applied. In the second visit, PFT and MIP-MEP tests, agility and 6MWT tests were performed and their performances were recorded. After the six-week training period, participants' final measurements were taken at the third and final visit. Subsequent to the completion of the six-week training period, the participants' final measurements were obtained during the final visit. The experimental trials were conducted at a consistent time each day, between 9:00 and 12:00. Prior to the commencement of the trials, participants were instructed to abstain from high-intensity physical activity. The inclusion criteria were as follows: a) Candidates must have at least two years of active football training, b) be between the ages of 10 and 13, c) be in good general health, d) have no known respiratory or cardiovascular conditions, e) provide written informed parental consent. The following criteria were used to determine exclusion from the study: The subject's medical history includes the following: a) A history of lung disease or a current upper respiratory tract infection, b) A history of current injury, c) Medication use that may affect breathing or performance, d)Individuals with FEV1/FVC\<70 e) Participation in similar studies within the last six months
NCT07001462
Background: Inspiratory muscle training combined with positive expiratory pressure (IMT/PEP) may improve outcomes in chronic obstructive pulmonary disease (COPD), but evidence in exacerbation-prone (Group E) disease is limited. This study is designed to evaluate the effects of IMT/PEP on pulmonary function, respiratory muscle strength, exercise capacity, and dyspnea in stable Group E COPD. Methods : This prospective randomized controlled trial will enroll 62 patients with stable Group E COPD between June 2023 and September 2024. Participants will be randomized to receive IMT/PEP plus standard care or standard care alone. Pulmonary function tests, maximal inspiratory pressure (MIP), maximal expiratory pressure (MEP), six-minute walk test (6MWT), oxygen saturation (SO₂), and dyspnea scales (mMRC, CAT, MBS, VAS) will be assessed at baseline, 1 month, and 3 months.
NCT03102294
Inspiratory muscle training for 8 weeks in patients with pulmonary hypertension.
NCT07061444
Introduction: After haematopoietic stem cell transplantation (HSCT), patients often experience complications such as respiratory difficulties, fatigue and decreased quality of life. The aim of the study was to compare the effectiveness of different inspiratory muscle training (IMT) protocols on respiratory muscle strength and endurance, dyspnoea, maximal exercise capacity, diaphragmatic function, respiratory function parameters, peripheral muscle strength, fatigue, quality of life, oxidative stress parameters, muscle biomarkers and inflammatory biomarkers in HSCT recipients during the transplantation process. Method: The study will include patients between 18-65 years of age, who are able to walk and understand the instructions, who do not have orthopedic, neurological or cardiac disorders and who will undergo haematopoietic stem cell transplantation. Patients with cognitive impairments; orthopedic or neurological diseases that may affect the evaluation of physical fitness tests; patients with comorbidities such as asthma, COPD will not be included in the study. In cases where the exercise group subjects' attendance to the training protocol is interrupted for 3 sessions or more consecutively, the voluntariness to participate in the research is lost during the research process, and clinical haemodynamic instability develops in the subjects, the participant will be excluded from the study. Patients in whom exercise training is contraindicated such as acute bleeding, haemoglobin value \<5 g/dl, platelet count ≤10000 mm3, high fever (body temperature \>38◦C), severe pain, confusion, dizziness, nausea and vomiting will not be included in the exercise. It is planned as a prospective, randomised controlled and single blinded study. Triple blinding could not be performed due to the executive's evaluation and implementation of the study protocol. Patients included in the study will be randomly divided into 3 study groups of 15 people each. Stratified randomisation technique will be used. A total of 45 haematopoietic stem cell transplant patients will be included in the study. Patients will be evaluated 3 times: before exercise therapy (pre-HSCT), before and after starting the preparatory regime and after exercise therapy (post-HSCT). Primary assessment measures are dyspnoea, maximal exercise capacity, respiratory muscle strength and endurance, diaphragmatic respiration, oxidative stress parameters, inflammatory markers, muscle biomarkers, pulmonary function test. Secondary assessment measures were peripheral muscle strength, fatigue, depression, and quality of life. The research arms consisted of a total of 45(15;15;15) people in 3 groups: 'standard inspiratory muscle training group', 'functional respiratory muscle training group' and 'control group' with 15 people in each group. All patients in the control and research groups will receive inspiratory muscle training for a total of 30 minutes twice a day, every weekday during the transplantation period, starting at the end of the session in which their initial assessment was made. Functional respiratory muscle training group will perform functional exercises simultaneously with inspiratory muscle training 3 days a week (Monday-Wednesday-Friday or Tuesday-Thursday-Saturday). All exercises will be supervised by a physiotherapist. The most important originality of this study is that it is the first study to investigate the effects of functional respiratory muscle training on respiratory parameters, diaphragm function, peripheral muscle strength, maximum oxygen consumption, dyspnoea, fatigue, depression and quality of life in HSCT recipients. It is the first randomised controlled study to demonstrate the effect of inspiratory muscle training on diaphragmatic function in HSCT recipients and it is one of the rare studies in which exercise capacity will be evaluated by cardiopulmonary exercise test. It is also the first study to examine the relationship between inspiratory muscle training and muscle biomarkers and oxidative stress parameters in HSCT recipients. H0: There is no difference in the effectiveness of different inspiratory muscle training protocols on maximal exercise capacity, respiratory muscle strength, respiratory muscle endurance, diaphragmatic function, oxidative stress parameters, muscle biomarkers, inflammatory biomarkers, dyspnoea, peripheral muscle strength, quality of life, fatigue, depression in haematopoietic stem cell transplant recipients. H1: There is a difference in the effectiveness of different inspiratory muscle training protocols on maximal exercise capacity, respiratory muscle strength, respiratory muscle endurance, diaphragmatic function, oxidative stress parameters, muscle biomarkers, inflammatory biomarkers, dyspnoea, peripheral muscle strength, quality of life, fatigue, depression in haematopoietic stem cell transplant recipients.
NCT03728803
Nemaline myopathy is a rare congenital myopathy. Respiratory failure is the main cause of death in these patients. The primary objective of this study is to determine the effect of a 8-week inspiratory muscle training program on respiratory muscle function in nemaline myopathy patients. The secondary objective is to determine respiratory muscle function in nemaline myopathy patients and its correlation with clinical severity and general neuromuscular function. The nemaline myopathy patients will be included in the first phase for a clinical characterization. From this phase patients will be selected for the second phase, which is a controlled before-after trial of inspiratory muscle training. The primary outcome is the change in maximal inspiratory pressure (MIP) after active inspiratory muscle training
NCT06411782
The aim of this study is to examine the acute effect of the foam roller (FR) method applied to the sternocleidomastoid (SCM) muscle after respiratory muscle fatigue on joint range of motion (ROM), accessory respiratory muscle activity and muscle strength. The aim of this study is to examine the changes in fatigue and pain symptoms by applying relaxation on the tense fascia and shortened muscle as a result of resistance training, and the effect of these changes in the sternocleidomastoid (SCM) muscle on joint range of motion (ROM) and muscle strength in healthy male or female participants aged 18-30. In line with the investigators' results, it may be recommended to add foam roller (FR) to the accessory respiratory muscles in the pulmonary rehabilitation program in patients with chronic lung diseases. For this reason, the investigators think that it will provide clinical and scientific benefits. The investigators believe that it will lead studies to add foam roller (FR) to the pulmonary rehabilitation program in patients with chronic lung diseases. Participants will be informed about the risks and benefits of participating in the study and a voluntary consent form will be signed. Participants will be given a demographic data form before starting the study and will be asked to fill it out. The hypermobility value will be measured according to the Beighton score before the participants start the tests. After the inspiratory muscle training (IMT) study, foam roller (FR) will be applied to the right sternocleidomastoid (SCM) muscle. A one week washout period will be given. Afterwards, the cases will be applied foam roller (FR) to the left sternocleidomastoid (SCM) muscle after the inspiratory muscle training (IMT) study. All evaluation parameters will be repeated before and after the applications. Maximum inspiratory pressure measurement, range of motion (ROM) measurements, muscle strength tests, flexibility with a myotony measuring device, electromyography (EMG) measurements will be made before the study one by one.
NCT06210516
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.
NCT06635343
Background: The aim of this study was to examine the effect of inspiratory muscle training on respiratory functions, balance and functional capacity in trainable mentally disabled individuals. Methods: Within the scope of the study, 30 children, aged between 8 and 17 years, diagnosed with educable mental disabilities, were randomly divided into experimental and conventional physiotherapy rehabilitation program (CPRP) groups. Before and after the test, blood pressure, respiratory frequency, pulse oximetry heart rate and arterial oxygen saturation (SpO2) values, and Modified Borg scores for fatigue and dyspnea detection were recorded. Body composition analysis, respiratory function test, and 6-minute walk test (6MWT) were performed on all individuals. The experimental group underwent inspiratory muscle training (IMT) with an inspiratory muscle training device 5 days a week for 8 weeks. The CPRP group was given a chest physiotherapy program that included thoracic expansion exercises, postural drainage, cough improvement techniques and physical activity recommendations, to be applied once a day, 5 days a week, for 8 weeks. At the end of eight weeks, the evaluations were repeated. Data were analyzed using SPSS vn. 25.0 software. The Paired Samples t-test was used to determine within-group differences, and Two-way ANOVA was applied to repeated measures to compare time and group effects.
NCT06259188
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.
NCT06609564
In addition to conventional chest physiotherapy, inspiratory muscle training will be applied in mechanically ventilated intensive care patients. It is aimed to examine the effects of inspiratory muscle training on respiratory muscle strength, diaphragm thickness, and diaphragm excursion in intubated or tracheostomized patients with mechanical ventilation in the intensive care unit.
NCT06597552
The aim of this study is to examine the effects of inspiratory muscle training on respiratory functions, functional capacity, fatigue and quality of life in pediatric cancer patients who have recently completed treatment. A total of 27 patients were included in the study. The patients were divided into two groups as Training and Control groups. After the initial evaluation of all patients, they were included in an 8-week inspiratory muscle training program. The final evaluation was made at the end of 8 weeks. According to the final evaluations, it was found that there was a statistical increase in favor of the Training group on Maximal Inspiratory Pressure, 6 Minute Walking Test, Quality of Life and Fatigue.
NCT06401135
The goal of this study is to investigate the effects of different IMT protocols on respiratory muscle strength, functional exercise capacity, quadriceps femoris muscle strength (QMS), handgrip muscle strength (HGS), QoL, respiratory function, dyspnoea, fatigue, balance, and PA levels in patients with CKD that were not on dialysis.
NCT05359770
COVID-19 is an infectious disease which presents a heterogenous clinical presentation. Recent investigations suggest that people who were infected by COVID-19 often develop physical disabilities (i.e. pain, fatigue), neurological complications and and mainly disorders of the respiratory system, such as respiratory muscle weakness after hospital discharge. Many therapeutic approaches such as transcranial direct current stimulation (tDCS) have been proposed to minimize functional and structural impairments. The aim of the present study is to evaluate the effects of inspiratory muscle training associated with stimulation of the diaphragmatic motor cortex through hd-tdcs in post-COVID-19 patients on inspiratory muscle strength, pulmonary function, inflammatory levels and functional capacity.