View clinical trials related to Mucociliary Clearance Defect.
Filter by:Cystic Fibrosis (CF) is an autosomal recessive disease cause by a mutation in the cystic fibrosis transmembrane conductance regulator (CFTR) manifesting in multiple organs, the most common cause of morbidity and mortality continues to be the pulmonary manifestation. CFTR dysfunction leads to reduced mucociliary clearance, impaired innate immune system function in the lungs (within the airway surface liquid [ASL] lining the epithelial barrier of the lungs) and reduced ASL hydration (stickier mucus). To try and help correct this underlying defect patients have been performing airway clearance for decades using different techniques (Percussion and postural drainage [P&PD], Positive expiratory pressure [PEP], Oscillatory positive expiratory pressure [OPEP], High-frequency chest compression [HFCC], exercise), inhaled mucolytics (Hypertonic Saline, Pulmozyme) and inhaled antibiotics. However, performing daily airway clearance can be a large burden on patients and their families with a median number of daily therapies around 7 and average time spent on therapies at almost 2 hours daily. This high treatment burden leads many patients to have reduced adherence to their regimens and multiple studies have shown around 20% of patients performing no daily airway clearance. Since the release of highly effective CFTR modulator therapy patients have experienced improvements in lung function measurements and imaging-based ventilation measurements, reduction in pulmonary exacerbations, and improvement in daily symptom scores. Over 80% of patients and their families and over 95% of clinicians in the United States support the idea of trials looking into the simplification of airway clearance regimens. Combining the inability of most patients to complete their daily regimens, patient and clinician interest in treatment simplification research, and the overwhelming cost of most inhaled medications in cystic fibrosis with the improvement in mucociliary transport and symptoms with highly effective modulator therapy suggests a research program aimed at reducing the treatment burden of daily airway clearance should be considered. The investigators propose the following: determine if there is additional benefit in continuous airway clearance regimens after starting Elexacaftor-Tezacaftor-Ivacaftor (ETI) and if so, is this benefit noticeable on pulmonary function testing and imaging.
This is a pilot study investigating the effectiveness and clinical efficacy of airway clearance therapy (ACT) in cystic fibrosis (CF). Enrolled subjects will undergo measurements of mucociliary clearance (MCC) and exhaled biomarkers at baseline and after 3 different forms of ACT: high frequency chest wall oscillatory vest, oscillatory positive expiratory pressure device, and whole-body vibration.
Randomized clinical trial, conducted in the Intensive Care Unit of the Hospital de Clinicas de Porto Alegre from october 2011 until november 2015 .