View clinical trials related to Lung Diseases.
Filter by:The I-FILE study is a prospective multicenter, multinational observational study where the feasibility of a patient-led registry using home monitoring in patients with pulmonary fibrosis will be evaluated. The aim of the study is to gain more insights in disease behavior in patients with pulmonary fibrosis, so in future patients with progressive disease can be better identified.
Rheumatoid arthritis (RA) is a common chronic systemic autoimmune relapsing disease characterized by joint inflammation. Beside arthritis leading to progressive joint damage and loss of function, RA is also associated to extraarticular inflammatory conditions such as interstitial lung disease (ILD). This one develops in 30% of all RA patients with a median survival expectancy of 3 to 10 years once symptomatic. Unfortunately, there is no medical care recommendation so far as the pathophysiology is unknown. However, ILD share many similarities with idiopathic pulmonary fibrosis (IPF). Autotaxin (ATX), due to its lysophospholipase activity, produces a bioactive lipid, lysophosphatidic acid (LPA) under inflammation. LPA has pleiotropic actions inducing cell proliferation, survival, motility and differentiation. Increased ATX and LPA levels have been detected in synovial fluid of RA patients and in IPF patients. ATX is also currently the target for a phase 3 clinical trial in IPF. Given the previous described role of ATX/LPA axis in arthritis and inflammation-induced bone loss in RA and the similarities between RA-ILD and IPF, the investigators hypothesized that ATX/LPA axis may be also an attractive drug target for this pulmonary condition in RA and therefore that ATX and LPA may be increased in sputum from RA patients with ILD in comparison with sputum from RA patients without ILD.
This study was designed to assess potential relationship between heart failure with preserved ejection fraction and 2- year mortality of patients with chronic obstructive pulmonary disease
The clinical significance of pulmonary embolism (PE) limited to the subsegmental pulmonary arteries, so called isolated subsegmental pulmonary embolism (SSPE), remains controversial. Whether isolated SSPE represents "true" PE, a clinically more benign form of PE, a physiologic lung clearing process, or a false positive result (artifact) is currently unclear and hence, whether patients with isolated SSPE benefit from anticoagulant treatment is uncertain. Despite growing evidence from observational studies that withholding anticoagulation may be a safe option in selected patients with isolated SSPE (i.e., those without concomitant deep vein thrombosis, cancer, etc.), most patients with isolated SSPE receive anticoagulant treatment, which is associated with an increased risk of bleeding. The overall objective of the randomized controlled SAFE-SSPE trial is to evaluate the efficacy and safety of clinical surveillance without anticoagulation compared to anticoagulation treatment in low-risk patients with isolated SSPE.
Purpose: To demonstrate the safety and efficacy of autologous Lung Spheroid Stem Cells (LSCs) administered by intravenous infusion in patients with idiopathic pulmonary fibrosis Progressive Fibrotic Interstitial Lung Disease. Participants: Patients with Idiopathic Pulmonary Fibrosis (IPF) and Progressive Fibrotic Interstitial Lung Disease Procedures (methods): 24 patients previously diagnosed with idiopathic pulmonary fibrosis or Progressive Fibrotic Interstitial Lung Disease meeting all inclusion/exclusion criteria will be evaluated at baseline. LSCs will be grown from autologous trans-bronchial pulmonary biopsy specimens. The first group, consisting of 6 patients will be randomized after completion of the screening procedures to either a treatment group of 100 million LSCs administered via intravenous infusion or to a control group (standard care) in a 2:1 LSC to control group ratio. The second group of 18 patients will be randomized after completion of the screening procedures to either a treatment group of 200 million LSCs administered via intravenous infusion or to a control group (standard care) in a 2:1 LSC to control group ratio. Patients will be randomized using permuted blocks in a 2:1 LSC to control group ratio, providing a distribution of 8:4:12 patients among the control, low dose, and high dose groups, respectively. If the patient is randomized and 100 million LSCs are not achieved, then the patient will be analyzed separately and another patient enrolled. Intravenous infusion of LSCs will take place 4-8 weeks after the pulmonary biopsies are obtained. All patients will be followed up at months 0.5, 1, 3, 6, 9, 12, 18, and 24 after infusion to complete the safety and efficacy assessments listed herein. All patients will receive standard of care for their IPF.
How to reduce the rapid decline of lung function in patients with AECOPD is a clinically urgent problem to be solved. Studies have suggested that there is a bacterial flora imbalance in the lower respiratory tract of COPD patients. To explore the relationship between microbiology and host immunity is a hot topic in the field of COPD. The investigators use NGS (next generation sequencing) technology to fully explore the specific molecular mechanism of the lower respiratory tract microbiome in patients with COPD by regulating the transcriptional activities of NF-κB and PPARγ in alveolar macrophages, resulting in pulmonary parenchymal remodeling and decreased lung function. In this study, a prospective cohort study will be used to evaluate the effect of the lower respiratory tract microbiome on lung tissue (alveolar space and pulmonary vascular) remodeling and pulmonary function decline in patients with AECOPD.
The aim of this prospective observational trial is to evaluate the influence of Coping strategies on pulmonary rehabilitation outcomes like 6-minute walk distance and Quality of life.
Premature infants have high rates of bronchopulmonary dysplasia (BPD) due to prematurity of the participants' lungs and the need for prolonged respiratory support. These infants are at increased risk for gastroesophageal reflux and aspiration which may exacerbate lung injury. Transpyloric feeds, specifically duodenal feeds, may be used to bypass the stomach and directly feed the duodenum decreasing the amount of gastric reflux contributing to aspiration. Duodenal feeds are equivalent to gastric feeds with regards to nutritional outcomes, and have been shown to decrease events of apnea and bradycardia in premature infants. This study will evaluate the feasibility and safety of duodenal feeds in premature infants. The hypothesis is that duodenal feeds may be safely and successfully performed in premature very low birth weight infants.
The main objective is to describe the phenotypic features of the paediatric and adult patients with Idiopathic Interstitial Pneumopathy/Pneumopathy Interstitial Diffuse (IIP/PID), at diagnosis and during the follow-up. These data will be critical for the description of the natural history of the various forms of IIP/PID.
Pulmonary vascular anatomy represents a constant challenge during lung resection, because of its variability in terms of vascular branches and anatomical variations. Preoperative standard computed tomography is not always sufficient to foresee tricky abnormalities; augmented reality, thanks to holograms creation, may offer additional data on pulmonary vascular anatomy and its relation with neoplastic tissue. The aim of this study is to assess the possibility of correctly predict number, location and potential anomalies of pulmonary vascular anatomy of the lobe to be resected in patients undergoing lung resection for cancer. Patients will receive standard preoperative oncologic and functional assessment. Preoperative computed tomography (CT) - performed according to a specific protocol - will be performed. CT images will be subsequently elaborated to generate 3D images (holograms). Two radiologists and two thoracic surgeons will analyze CT images and report number of artery and vein branches for the lobe to be resected. Moreover they will report every anatomical variation, according to the normal anatomy. After that, the same two radiologists and thoracic surgeons will analyze the holograms and perform the same analysis as quoted above. Patients will undergo to the planned surgical resection. The operating team will report the exact number of artery and vein branches of the resected lobe as well as every anatomical variation. Preoperative CT and holographic findings of the radiologists and the thoracic surgeons will be matched with the report of the operating team.