View clinical trials related to Lung Diseases, Interstitial.
Filter by:The etiology of cryptogenic organizing pneumonia (COP)was not clear, but previous studies have shown that in some patients, some pathogen could be detected in bronchoalveolar lavage fluid (BALF), and may be one of the causes of COP. This study aimed to screen the pathogenic microorganisms in BALF and lung puncture fluid of the patients with COP through the next-generation sequencing to further clarify the correlation between the incidence of COP and pathogenic microorganisms.
1. Impact of telemonitoring on quality of life (QoL) of patients with CTD-ILD 2. Evaluation of health status of patients with connective tissue disease-associated interstitial lung disease (CTD-ILD) using telemonitoring and standard care. 3. Assessment of treatment response patterns (full remission, partial remission, progression, no response) and evaluation of clinical prognostic factors (risk factors for poor response in patients with CTD-ILD. 4. Evaluation of cost-effectiveness of telemonitoring solutions in patients with CTD-ILD. 5. Evaluation of telemedicine as a tool for assessing the safety of therapy
COVID-19, the infectious disease caused by the novel coronavirus SARS-CoV-2, currently poses a global economic, social, political and medical challenge. The virus originated in December 2019 in Wuhan, China, and has spread rapidly around the world. Currently, European countries, including Austria, are severely affected.The most common computed tomographic changes in acute lung injury include bilateral and subpleural milk glass opacity, consolidation in lower lobes, or both. In the intermediate phase of the infection (4-14 days after the onset of symptoms) a so-called "crazy paving" may occur. The most prominent radiological changes occur around day 10, followed by gradual resolution, which begins two weeks after the onset of symptoms. Given the phylogenetic relationship between SARS-CoV-1 and SARS-CoV-2, the similar clinical course in severe cases and overlapping CT patterns in the acute setting, persistent radiological and pulmonary functional changes in survivors are conceivable. It is also conceivable that a proportion of survivors will develop progressive ILD, either due to viral or ventilator-induced alveolar damage, or both. Here, the investigators intend to investigate COVID-19 survivors through clinical examinations, functional lung examinations, HR-CT scans, and by determining the "immunofibrotic" pattern in peripheral mononuclear cells (PBMCs) 1, 3, and 6 months after discharge.
The primary intention of this study is to determine the diagnostic performance of ultra-low-dose CT (ULDCT) in diagnosis and follow-up of diffuse parenchymal lung disease (DPLD). We hypothesize that inspiratory and expiratory chest ULDCT has comparable diagnostic yield to standard dose chest High-resolution computed tomography (HRCT) and utility for follow-up of patients with known DPLD. We will study this hypothesis through the following aims: 1. Determine whether inspiratory and expiratory ULDCT are comparable to HRCT in identifying mosaic attenuation due to air-trapping. 2. Determine whether ULDCT is as good as HRCT for follow-up of patients with established DPLD to identify disease progression.
In this project, the clinical diagnosis of interstitial lung diseases was carried out for the population with suspected interstitial lung diseases selected from the community cohort, and the confirmed patients were included into the existing clinical cohort of interstitial lung diseases, forming an interstitial lung diseases special disease cohort consisting of 3,000 patients and corresponding matched control groups. According to characteristics of interstitial lung disease and the needs of National Key R&D Program of China, this study will formulate unified clinical follow-up strategy to do long-term standardized clinical follow-up in patients with interstitial lung disease. The detailed information for clinical diagnosis and treatment as well as biological samples were collected to identify disease phenotype and build the database and biological sample library for interstitial lung disease cohort study. This study aims to provide evidence for molecular classification, screening and validation of biomarkers as well as precise diagnosis and prevention in patients with interstitial lung disease.
The aim of this study is to assess the findings of mediastinal/hilar LN sampling by EBUS-TBNA in patients with non-sarcoidosis interstitial lung disease ( ILD) who demonstrate LN enlargement on chest imaging. Patients with non-sarcoidosis ILD referred for bronchoscopy will undergo LN sampling by EBUS-TBNA. Cytology results will be recorded along with clinico-radiologic features, BAL findings, histology and final ILD diagnosis.
This pilot study wants to determine to which extent SPCCT allows obtaining images with improved quality and diagnostic confidence when compared to standard Dual Energy CT (DECT), both with and without contrast agent injection. Depending on the anatomical structures/organs to be visualized during CT examinations, different scanning protocols are performed with quite variable ionizing radiation doses. Therefore, in order to obtain the most extensive and representative results of the improvement in image quality between SPCCT and DECT that will be performed CT imaging on several body regions and structures, including diabetic foot, diabetic calcium coronary scoring, adrenal glands, coronary arteries, lung parenchyma, kidney stones, inner ear, brain and joints, earl/temporal bone, colorectal carcinosis.
This project aims to use artificial intelligence (image discrimination) algorithms, specifically convolutional neural networks (CNNs) for scanning chest radiographs in the emergency department (triage) in patients with suspected respiratory symptoms (fever, cough, myalgia) of coronavirus infection COVID 19. The objective is to create and validate a software solution that discriminates on the basis of the chest x-ray between Covid-19 pneumonitis and influenza
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.
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.