View clinical trials related to Lung Diseases.
Filter by:Shortness of breath (dyspnea) during exercise is a major source of distress and is a commonly reported symptom in patients with cystic fibrosis (CF). A recent drug treatment option known as Trikafta, which contains elexacaftor, tezacaftor, and ivacaftor, may be used in patients with CF to help improve lung health. However, the effects of this combination therapy on dyspnea and exercise performance, a known predictor of survival in CF, are not clear. The investigators aim to understand the effects of Trikafta on these symptoms and to gain new insight into the potential health improvements in CF from using this treatment option.
Mycobacterial Lung Diseases in Virginia: sequencing and clinical determinants of relapse and outcome
The purpose of this study is to evaluate the safety, tolerability, and pharmacokinetics of ARO-RAGE in normal healthy volunteers (NHVs) and in participants with inflammatory lung disease (asthma). In Part 1 of the study, NHVs will receive a single dose of ARO-RAGE or placebo. In Part 2 of the study, adult participants with asthma will receive 2 doses of ARO-RAGE or placebo. Additional NHVs may be randomized to receive 1 or 2 doses of ARO-RAGE or placebo at Sponsor discretion. Dose levels in Part 2 will be determined based on cumulative safety and pharmacodynamic data from Part 1.
The current literature suggests that the mode of action of benralizumab is to deplete eosinophils through a mechanism of antibody-dependent cell-mediated cytotoxicity. This direct cellular cytotoxicity may not explain all of the benralizumab effects. The investigators propose a set of studies to systematically examine the spectrum of effects of this drug on the immune system.
Lung transplantation is an effective therapeutic option in the end-stage of chronic respiratory diseases. Lung transplantation improves lung function in terms of capacity and volume. However, the transplanted patient still suffers from muscle weakness and exercise intolerance. In recent years, respiratory physiotherapy work has intensified in critically ill patients with respiratory muscle weakness and the application of inspiratory muscle training (IMT), which has been shown in several studies to increase inspiratory muscle strength (IMT), improve ventilation and reduce the sensation of shortness of breath. Despite this emerging evidence, inspiratory muscle training (IMT) is not standard practice in most ICUs around the world, nor is it included in a protocolised manner among the components of a pulmonary rehabilitation programme. Given the limited evidence, the investigators propose to conduct this randomised controlled clinical trial in lung transplant recipients. The study will compare two groups of transplanted patients, a control group that will follow the rehabilitation programme and standard medical care and another experimental group that will also perform inspiratory muscle training. This study aims to analyse the effect of IMT on inspiratory muscle strength, exercise capacity and quality of life in lung transplant patients.
The purpose of this study is to assess the safety and efficacy of tulisokibart in participants with SSc-ILD.
To compare the safety/efficacy of the robotic-assisted lobectomy/segmentectomy (RAL/S) with the video-assisted lobectomy/segmentectomy (VAL/S) for lung resection. Video-assisted lobectomy/segmentectomy (VAL/S) for lung resection is divided into uniport group and multiple- port group.
Previous studies have shown the feasibility of ERAS on minimally invasive lung surgery, but it is unknown whether completely tubeless protocol is safe and better. This study aimed to determine whether completely tubeless protocol is feasible and beneficial for minimally invasive lung surgery, compared with partially tubeless protocol.
The main purpose of this study is to evaluate the effects of automated oxygen administration (FreeO2 system) alone or with high-flow oxygen on dyspnea and exercise tolerance in people with desaturating chronic lung disease compared to fixed oxygen therapy.
The clinical objectives of this study are to determine whether utilization of the Wellinks COPD Solution can improve quality of life for patients with COPD, can reduce healthcare resource utilization over time, and can improve pulmonary function as measured by connected devices. The nonclinical objectives of this study are to describe the experience of patients using the Wellinks Solution through the assessment of patient engagement with the solution, as well as by patient-reported satisfaction with the solution and their perceived value (e.g., willingness to pay). Qualitative feedback on the features and functionality of the Wellinks Solution will be solicited.