69 Clinical Trials for Various Conditions
This clinical trial evaluates the effects of whether breathing exercises at home can reduce symptoms and help stage I-III lung cancer survivors stay active. Over 70% of lung cancer survivors have trouble breathing, feel tired, and have lower levels of fitness. This is often because their breathing muscles are weaker after surgery. Many survivors find it hard to exercise, which affects their quality of life and overall survival. A training program to strengthen these muscles might reduce breathing problems, lower fatigue, and improve quality of life. Staying active could also help boost the immune system to fight cancer. Respiratory muscle training (RMT) involves a series of breathing and other exercises that are performed to improve the function of the respiratory muscles through resistance and endurance training. Participating in a home-based RMT intervention may reduce symptoms from cancer or treatment in lung cancer survivors.
To evaluate the extent to which a 12-week respiratory rehabilitation program consisting of inspiratory and expiratory breathing exercises compared to expiratory breathing exercises alone will help to improve shortness of breath, respiratory symptoms, breathing function, distance walked, and quality of life in those who are experiencing persistent shortness of breath after having had COVID-19. Measurements will take place at the beginning, 6 weeks, and at 12 weeks in the study.
The primary aim of this study will be to determine if a respiratory muscle training program that includes both inspiratory muscle training (IMT) and expiratory muscle training (EMT), targeted at improving respiratory muscle performance-based measures combined with patient education about breathing on the toilet will improve patient satisfaction scores in individuals with chronic constipation (CC).
The goal of this clinical trial is to test the hypothesis that combined Respiratory Muscle Training and a Stroke Wellness Program is more effective than a Stroke Wellness Program alone for stroke survivors with and without a smoking exposure history. Participants will participant in a Stroke Wellness Program consisting of strengthening, cardiovascular and flexibility training program plus respiratory exercise for 24 sessions (3x/week for 8 weeks). Researchers will compare outcomes to those randomized to a respiratory strengthening program compared to a relaxation training program to see if those who received respiratory strengthening had improved maximal respiratory pressure, improved physical activity and improved quality of life compared to those who received relaxation training.
This clinical trial evaluates whether home-based respiratory muscle training is useful for minimizing side effects in patients undergoing treatment for breast cancer. Over-activation of the nervous system during breast cancer treatment can result in heart- and lung-related side effects which have the potential to reduce a patient's quality of life. Aerobic exercise can help prevent the development of these side effects. However, engaging in regular aerobic exercise may be difficult for breast cancer patients who are actively undergoing treatment. Respiratory muscle training (RMT) involves a series of breathing and other exercises that are performed to improve the function of the respiratory muscles through resistance and endurance training. Home-based RMT may represent a more feasible approach for reducing side effects in patients undergoing treatment for breast cancer.
The overall objective of this study is to improve unaided cough with abdominal and latissimus dorsi functional electrical stimulation in conjunction with respiratory muscle training in individuals with acute spinal cord injuries.
Twelve adults with ALS will participate in a study involving four 3-week cycles of progressive respiratory muscle training (RMT). The investigators will measure maximum inspiratory pressure (MIP) and maximum expiratory pressure (MEP) weekly. The investigators will obtain the majority of measurements of MIP and MEP during web-based telehealth visits. Participants will be stratified into 2 groups based on baseline inspiratory muscle strength as determined by maximum inspiratory pressure (MIP): six participants with minimal to no respiratory weakness (i.e., MIP ≥ 70% predicted) and six participants with mild to moderate inspiratory weakness (i.e., MIP 40-70% predicted).
This phase II trial studies how well respiratory muscle training before surgery works in preventing lung complications after surgery in patients with stage I-IIIB lung cancer. Patients with lung cancer who choose to undergo surgical resection often have complications after surgery such as pneumonia, unplanned intubations, difficulty breathing and reduced physical functioning, and increased medical costs and a reduced quality of life. Improving pre-surgical pulmonary health through respiratory muscle training may improve respiratory muscle strength, response to surgery, and quality of life after surgery in patients with lung cancer.
It is well known that patients with spinal muscular atrophy (SMA) have progressive decline of respiratory muscle function. Therapy traditionally involved supportive means to ensure optimal nutrition and airway clearance. Nusinersen (spinraza) is a disease-modifying medication approved for treatment of SMA in pediatric and adult patients. The goal of this study is to observe pulmonary function test (PFT) changes and respiratory muscle strength trends throughout the first year of treatment. A prospective, longitudinal study measuring pulmonary function testing (PFTs) changes in spinal muscular atrophy (SMA) patients. Patients will be patients with SMA who are approved and maintained on nusinersen. Patient will have a baseline PFT. Investigators will repeat PFT at 3, 6, and 12 months while on nusinersen treatment.
This study is being done because investigators are trying to determine how respiratory muscle and lung function influence the exercise responses in heart failure and healthy participants. Further, the heart failure patients will participate in an intervention to improve their respiratory muscle function to determine if this improves exercise capacity.
The purpose of this study is to assess the safety and tolerability of a 6-week Inspiratory Muscle Training and cardiovascular exercise training program in children and adolescents with asthma. To also determine the efficacy of inspiratory muscle training and exercise in increasing respiratory muscle strength and endurance, and to explore relationships between fitness interventions (inspiratory muscle training and exercise), exercise tolerance, airway closure and dyspnea scores.
It is estimated that spinal cord injury (SCI) affects approximately 12,000 new individuals every year in the United States, with the majority are cervical and/or upper thoracic injuries. Despite this high prevalence of obstructive sleep apnea (OSA) in chronic SCI population minority of patients are treated and are adherent to standard therapy (CPAP). This proposal addresses a new therapeutic intervention for OSA in SCI. The investigators hypothesized that combined oropharyngeal and respiratory muscle exercises improve respiratory symptoms and alleviate OSA in patients with chronic SCI. The investigators will perform a pilot randomized, sham-controlled study to examine the impact of combined daily exercises (\~30 min) for 1 and 3 months durations among Veterans with SCI. The investigators believe that this novel approach to treating OSA and will yield significant new knowledge that improves the health and quality of life of these patients.
Presbyphonia is an age-related voice disorder that affects more than 10 million people in the United States. Presbyphonia is characterized by vocal fold atrophy that impairs older individuals' ability to communicate, leading to social isolation and reduced quality of life. Outcomes from current treatment approaches are often suboptimal for patients with presbyphonia as they do not sufficiently challenge the respiratory system to induce meaningful change. It is highly likely that the addition of respiratory training would result in greatly improved outcomes, such as the ability to speak loud and long enough to have a normal conversation. The purpose of this study will be to examine the effect of adding inspiratory muscle strength training (IMST) or expiratory muscle strength training (EMST) to standard of care voice therapy on respiratory and voice outcomes in patients with an age-related voice disorder. Forty-eight participants diagnosed with presbyphonia will be blocked-randomized into three intervention groups, using a 3-parallel arm design: IMST and voice exercises, EMST and voice exercises, and voice exercises during all session. Study endpoints will be the change in voice and respiratory measures after four treatment sessions compared to baseline values. Response to treatment will be analyzed to determine if there are subgroups of high- or low-responders based on baseline voice and respiratory characteristics.
The investigators seek to understand how reflexes from the breathing muscles influence blood pressure during exercise. Furthermore, the investigators are determining if increasing breathing muscle strength (via inspiratory muscle training) influences the respiratory muscle contribution to blood pressure during exercise.
This research is intended to begin to explore the impact of inspiratory muscle resistance exercise and/or 1,25(OH)2D3 for improving respiratory muscle strength in cancer patients (subjects).
Mechanical ventilation can be life saving strategy for patients with respiratory failure due to a variety of reasons. Once the underlying illness has resolved, intensive care doctors have to take a decision on when the patient is safe to get off the ventilator or be extubated. They use clinical assessment of the patient's ability to breathe spontaneously and make use of some breathing parameters to make the judgment. Most of the time, a patient can come off the ventilator and do well, but sometimes muscle weakness from sickness can affect the patient's ability to breathe adequately once ventilator support is discontinued. If that occurs, the patient may have to be put back on the ventilator and the physician will suggest some changes to help muscles get stronger. A simple, non-invasive test that can assess respiratory muscle state before taking patients off the ventilator to see if their muscles look healthy can help distinguish which patients may not be ready to be extubated. There are currently several tests available to assess muscle strength, in particular muscles that help in breathing like the intercostal muscles and diaphragm. The study will test the use of Ultrasonography (Ultrasound) as a non-invasive test to assess the muscles of respiration. This test will also help the investigators test physical therapies and interventions of mechanical ventilation that can help patients strengthen the muscles while waiting for extubation.
This study is being done to test the effects of respiratory muscle training (RMT) in patients with late-onset Pompe Disease (LOPD) who have weakness of their breathing muscles. The results of this study will help design future research studies about RMT in LOPD. The goals of this study are to decide if sham-RMT is a useful control condition for RMT and to choose the best ways to measure the health benefits of RMT in LOPD.
This study is a longitudinal study evaluating the severity and progression of respiratory muscle function in patients with X-Linked Myotubular Myopathy (XLMTM) aged 0-14.
This study intends to evaluate dynamic respiratory motor performance as a valuable measure of pulmonary function in adults with late-onset Pompe disease. The investigators will adopt a strategy that includes comprehensive evaluations of respiratory volume, flow, and timing parameters during resting and loaded breathing. These evaluations will then be associated to the standard clinical measure of maximal inspiratory pressure, the static inspiratory muscle function, as well as magnetic resonance imaging of thoracic expansion and diaphragmatic descent at rest and with exertion. Outcomes in participants with late-onset Pompe disease will be contrasted to the function of age- and gender-matched control subjects. This approach will enable the investigators to evaluate the relationship between dynamic diaphragmatic function and respiratory motor function.
Study 701-201 is a study in patients with late-onset Pompe disease (LOPD). The study will test respiratory muscle strength initially and again after 24 weeks in subjects treated or not treated with BMN 701 .
The purpose of this study is to determine whether two modes of artificial (i.e. mechanical) ventilation have an impact on patient synchrony with the ventilator (breathing machine) and on the patient's work of breathing.
The purpose of the study is to determine if respiratory muscle strength training will be beneficial for inspiratory and expiratory muscle strength in adults and children with Pompe disease.
The purpose of this study is to determine if inspiratory muscle strength training (IMST) will impact maximal inspiratory pressure and pulmonary function in patients with neuromuscular disease.
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.
The purpose of this research is to study the feasibility of a specific training program for the breathing muscles (inspiratory muscle training) and the effects on how breathing is regulated during exercise in typically developing children.
This project will test the following hypotheses: 1. Training of the inspiratory muscles increases underwater endurance and reduces hypercapnia in divers. 2. Inspiratory muscle training while breathing low concentration carbon monoxide (200 ppm) for 30 minutes daily improves diaphragm performance to a greater degree than the same training breathing air. 3. Inspiratory muscle training increases hypercapnia ventilatory response (gain) in those individuals with a low gain. 4. Variability in oxygen (O2) and carbon dioxide (CO2) permeability of erythrocyte membranes is a determining factor in underwater exercise performance.
Patients will receive one of three respiratory therapy interventions for airway clearance assistance: 1) High frequency chest wall oscillation (HFCWO) and mechanical insufflation/exsufflation (MIE), 2) HFCWO or 3) MIE. The study period will be six months and include three clinic visits, baseline and follow-up visits at 3 and 6 months, and 6 monthly home visits by the respiratory therapist.
Spinal cord injury (SCI), especially involving the cervical and upper thoracic segments, can significantly compromise respiratory muscle function. Respiratory complications can ensue, including lung collapse and pneumonia, which are the primary cause for mortality in association with traumatic SCI both during the acute and chronic phases post-injury. Lesions at the level of the cervical or high thoracic spinal cord result in respiratory muscle weakness, which is associated with ineffective cough, mucus retention, and mucus plugging. Despite the fact that pulmonary complications are a major cause of morbidity and mortality in this population, there is a paucity of effective interventions in the SCI population known to improve respiratory muscle strength with pharmacologic interventions receiving little to no attention. The current objective of this study is to determine the effectiveness of 16 weeks of sustained release oral Albuterol to; (1) improve respiratory muscular strength, and (2) improve cough effectiveness.
This study has two parts: an observational part and an interventional part. The goal of the observational part of the study is to look for variations in swallowing in adults with obstructive sleep apnea (OSA) and in adults who don't snore. The main questions it aims to answer are: * Are there differences in swallowing between people with OSA and people who don't snore? * Are there differences in swallowing between people with OSA who do well with continuous positive airway pressure (CPAP) therapy and those who struggle with CPAP? This may help us better understand what causes OSA, which may help us develop alternate ways to treat or even prevent OSA. It may also help us improve care for people with OSA who struggle with CPAP. Participants will be aged 40-60 years, except women up to the age of 70 will be included in the healthy control (non-snorer) group. Participants will: * Undergo a type of x-ray study called a modified barium swallow study (MBS) * Come to MetroHealth Medical Center for a measurement visit to: * assess the strength of their tongue, lips, and cheeks * assess the strength of their breathing muscles * assess for restrictions in tongue mobility (tongue ties) * observe their resting breathing * take photos of their mouth and posture * take videos of them drinking and eating * Complete some questionnaires * For successful CPAP users: we will download data from the chip in their CPAP device * Do a home sleep test (except for successful CPAP users who have had a recent in-lab sleep test) The goal of the interventional part of the study is to test swallowing exercises in people ages 40-60 years with OSA who struggle with CPAP. The main question it aims to answer is: • Can swallowing exercises help people who struggle with CPAP sleep better with CPAP? Participants will: * Try to use CPAP for 2 weeks with individualized support * Do all the investigations listed in the observational part of the study * Do one or two courses of swallowing exercises, each of which would last 7 weeks. Participants will be asked to do daily exercises; exercises will take 20-30 minutes to perform. * Try to use CPAP for 2 weeks after the course of exercises * Repeat the investigations listed in the observational part of the study to see if changes occurred with the swallowing exercise intervention.
This research study is investigating whether completing breathing exercises before surgery helps heart transplant patients recover after surgery. Previous studies have shown that breathing exercises can improve breathing, cough, and swallow function in patients with other diseases/conditions. The current study will investigate the impact of a preoperative respiratory muscle strength training program on breathing and cough function, swallow function, patient-reported eating and swallowing fatigue, and health outcomes in individuals undergoing heart transplantation. Participants will: * undergo tests of breathing, cough, and swallow function * complete questionnaires about the treatment, their swallow function * complete breathing exercises daily