View clinical trials related to Lung Diseases, Interstitial.
Filter by:As in-clinic pulmonary function testing is greatly restricted due to Coronavirus Disease 2019 (COVID19), alternative approaches to monitoring patients with long-term respiratory conditions need to be developed and assessed. This project will evaluate the feasibility of a remote monitoring programme designed for interstitial lung disease (ILD) [including idiopathic pulmonary fibrosis (IPF)] patients which includes patient-reported spirometry & pulse oximetry (to estimate lung airflow and oxygen levels in the blood). Patients with a confirmed diagnosis of ILD will be asked to measure spirometry & pulse oximetry once/day for approximately three months. Each patient will be supplied with a spirometer & pulse oximeter for home use. There will be no other changes to patients' care. The clinical teams responsible for care of the patients will be able to view all patient-recorded data immediately after data are recorded by the patient. Feasibility of remote monitoring will be assessed by determining the proportion of patients who provide measurements at least 3 times/week and on at least 70% of days in the observation period. Patient engagement (Patient Activation Measure), changes in spirometry measurements over time and healthcare resource utilisation (e.g. number of in-clinic visits) will also be assessed. Other outcomes assessed will include estimation of the proportion of patients with significant decreases in lung function, number of occasions where critical alert values of physiological parameters are reported and number of interventions by healthcare professionals in response to observations or alerts from remote monitoring. Feedback from patients and healthcare providers on user experience will also be sought. Learnings from this project will be used to assess the wider application of delivery of digitally-based remote monitoring in management of long-term respiratory conditions.
Lung involvement in Sjögren's syndrome is common and causes reduced quality of life and increased mortality. Sjögren's syndrome-related lung diseases (SS-RLD) are classified and treated as the primary lung diseases they resemble. Whether this approach is optimal has not been evaluated thoroughly. A critical gap in knowledge is knowing whether SS-RLDs have a unique clinical course and response to therapy. Given the underlying immune system dysfunction in Sjögren's syndrome, the investigators hypothesize that patients with SS-RLD will be more likely to respond to immunosuppressive therapy than patients with the matching primary lung disease. To address this hypothesis, the investigators will prospectively screen for Sjogren's syndrome in patients presenting to pulmonary clinics and compare the clinical course and response to therapy in Sjogren's syndrome positive and negative patients.
The purpose of this research study is to learn about the effects of the medication ixazomib in participants with scleroderma/systemic sclerosis including its safety and tolerability, its effects on skin, lungs and other organs, and its effects on overall health and quality of life.
The primary objective of this study is to assess the presence of a correlation between the Lung ultrasound score (LUSS) and PaO2/FiO2 in patient presenting with interstitial syndrome (IS) in the ED. The primary end point considers the null hypothesis to be a negative linear distribution for LUSS and PaO2/FiO2 values. Secondary objectives and secondary end points One of the secondary objectives is to assess the correlation between the LUSS and PaCO2 in patient presenting with IS in the ED. The end point of this secondary outcome considers the null hypothesis to be a positive linear distribution for the LUSS and PaCO2 values. Another secondary objective is to determine the influence of the presence of unilateral or bilateral pleural effusion on the correlation between LUSS and PaO2/FiO2. The end point of this secondary outcome considers the null hypothesis to be a negative linear distribution for LUSS and PaO2/FiO in those three sub-groups: absence of pleural effusion group, unilateral pleural effusion group and bilateral pleural effusion group.
The main goal of this prospective non-interventional exploratory monocentric study is to characterize the immune cell composition of bronchoalveolar lavage (BAL) fluid from cancer patients experiencing cancer therapy-induced pneumonitis on a single-cell scale. These mechanistic insights can directly lead to putative diagnostic biomarkers and therapeutic targets. A second highly clinically relevant hypothesis is that single-cell profiling of blood samples will reveal circulating biomarkers of ICB toxicity, making non-invasive diagnosis feasible.
The main goal of this prospective non-interventional exploratory study is to characterize the tumor micro-environment of advanced NSCLC in single-cell resolution, prior to immune checkpoint blockade exposure, and correlate the findings to clinical outcome. This approach will allow to generate new hypotheses regarding mechanism of action of ICI and (primary) resistance mechanisms. The long-term goal is that these novel mechanistic insights will be translated to a clinical setting to develop better biomarkers of ICI efficacy. Importantly, since the investigators will also sequentially profile the immune composition of peripheral blood, this research offers an opportunity to develop circulating (non-invasive) biomarkers. A second aim is to characterize the immune cell composition of bronchoalveolar lavage (BAL) fluid from these ICI-treated cancer patients if they would develop ICI-pneumonitis. These mechanistic insights can directly lead to putative diagnostic biomarkers and therpeutic targets. Since single-cell profiling of blood samples will also be performed, circulating biomarkers of ICI toxicity can also be identified, making non-invasive diagnosis feasible.
Up to a third of patients who recovered from SARS coronavirus (SARS-CoV) had a 20% decline in lung function with a long term reduction in exercise capacity and SF-36 health status a year after infection. Similar outcomes are now being reported in COVID-19 patients, with interstitial lung disease (fibrosis) and long term lung function decline being a common feature. Anti-fibrotic monocytes/macrophages are important for the clearance of partially degraded collagen fragments of fibrotic extracellular matrix, in particular fibrillary-type collagen. MON002 is an autologous monocyte product, cultured in vitro prior to intravenous delivery into patients with post-COVID-19 lung fibrosis.
Interstitial lung disease (ILD) is a restrictive lung disease characterized by impaired lung function, exercise limitation and skeletal muscle dysfunction. There is limited data on skeletal muscle function in ILD, most of which are focused on the lower limb muscles. The aim of this study were to evaluated the change of pectoralis muscle strength and relationship of pulmonary function with pectoralis muscle strength.
The main goal of this study is to develop a noninvasive signature for pulmonary vascular remodeling in Group 3 PH patients, using hyperpolarized 129Xe magnetic resonance imaging (129Xe MRI). Such a signature may identify Group 3 PH responders to PAH-specific therapies. PAH's unique 129Xe MRI signature has been shown in previous studies. Past studies have lacked a pathologic "ground truth" correlate of these signatures, which could be provided by comparing them with the pathology of lung explant tissue from patients who have undergone a lung transplant. This signature could be validated in a cohort of patients with Group 3 PH in future studies.
Lung structural abnormalities are complex, time-consuming, and may lack reproducibility to evaluate visually on CT scans. The study's aim is to perform automated recognition of structural abnormalities in CT scans of patients with chronic lung diseases by using dedicated software.