View clinical trials related to Lung Diseases, Interstitial.
Filter by:This study investigates the efficacy and safety of belimumab compared to placebo, in addition to standard therapy, for the treatment of participants with systemic sclerosis associated interstitial lung disease (SSc-ILD). The study will evaluate the effect of belimumab treatment on lung function as well as on extra-pulmonary disease manifestations, including skin thickening and general symptoms, such as fatigue, that impact quality of life (QoL).
The planned study is a prospective cohort interventional study in IPF and PF-ILD patients after initiating anti-fibrotic therapy and pulmonary rehabilitation. The study aims to investigate if accelerometer measured PA parameters, such as total daily steps, moderate-vigorous PA demonstrate significant and sustained changes longitudinally from baseline in this cohort and can predict disease progression. The study also explores if the actigraphic PA indices correlate with patients' quality of life, change in six-minute walk distance (6MWD), GAP score, fatigue score, change in patients' dyspnea score/scale, radiographic extent of the disease, and pulmonary function test parameters. The study is exploratory in nature. It will provide vital information for clinical as well as research purposes. Clinically, accelerometer measured PA can be utilized for therapeutic target and prognostication, helping to develop patient centric care. The measured indices can also be useful to serve as meaningful endpoints to plan larger and definitive studies in IPF and PF-ILD patients.
The overall aim of the study is to develop and validate a Rheumatoid Arthritis-Interstitial Lung Disease (RA-ILD) clinical prediction model (screening tool) based on risk factors to guide screening for ILD in patients with RA using High Resolution Computed Tomography (HRCT).
Background: The lung is a privileged organ; blood does not reflect most lung processes well, if at all. Therefore, for population scale diagnostics, the investigator team is developing non-invasive portals to the lung, for eventual early detection/risk assessment and diagnostic purposes. However, large macromolecules are not likely suspended nor readily detected in the breath. In particular, genomic DNA in the breath condensate (EBC) is very sparse, and where present, generally highly fragmented, not readily amenable to sequencing based assessments of DNA somatic mutation burden or distribution. Because gDNA (and protein) is challenging to obtain non-invasively from EBC, the study team considered alternative surrogate lower airway specimens. Cough capture is rarely done, and the investigator team is in the process of optimizing its collection. Importantly, the team will be evaluating how much of coughed material is from saliva contamination. Additionally, analyzing material that is target captured by capturing deep lung extracellular vesicles (EVs) using immobilized CCSP/SFTPC antibodies targeting EVs from distal bronchiole Club and alveolar type 2 cells could circumvent the mouth contamination problem, leaving a non-invasive portal to the deep lung suitable for large molecules, and in turn suitable for myriad epidemiologic and clinical applications. Proposal: The investigator team proposes (Aim 1) to pursue optimizing cough collection, and testing the efficacy and practicality of partitioning cough specimen for deep-lung specific extra-cellular vesicles (EVs). This cough specimen will be compared to that from invasively collected deep lung samples BAL/bronchial brushings, and to the potential contaminating mouthrinse, all from the same individuals. (Aim 2) The study team initially proposes to examine these cough specimens for somatic mutations by SMM bulk sequencing for single nucleotide variation, developed in the Vijg/Maslov labs. Finally, the investigator team will (Aim 3) test all airway specimens (cough, mouthwash and BAL) for lung surrogacy of cough, using proteins known to be specific for lung, as opposed to oral cavity/saliva, in the Sidoli/proteomics core. Impact: The investigator team envisions that the translational impact of non-invasively obtained DNA or protein markers could allow for more rapid acute clinical diagnoses, and facilitate precision prevention and/or early detection of many acute and chronic respiratory disorders, including lung cancer, asthma and COPD, acute and chronic infectious diseases, and indeed systemic disorders of inflammation and metabolism.
Clinically, all patients with interstitial lung disease were observed, and relevant clinical data were collected. Bronchoscopic specimens were collected according to the condition of the enrolled patients, and the ROSE smear was evaluated, combined with the NGS results of these patients. To observe the etiology and biological characteristics of exacerbation in patients with interstitial lung disease. Patients with apnea should be tested for polysomnography, and corresponding biological specimens should be obtained for molecular biology or other tests
Assess the usability and acceptance of the P-STEP app, through allowing participants with specific chronic conditions to pilot the app for 12-weeks.
The use of Anlotinib hydrochloride capsules for the treatment of IPF/PF-ILDs, with FVC as the primary efficacy endpoint to evaluate its effectivenes
Participants with respiratory disease experience often a worsening of their condition, with increasing symptoms such as cough and shortness of breath. This worsening, often called exacerbation or flare up, impacts on the life of the participants, since they become limited in their daily activities. Healthcare is still based today on limited times for clinical appointments to perform investigations and to meet with specialists/clinicians. Very often, these evaluations do not reflect the way the disease is limiting the patient's life. Wearable devices offer the opportunity to collect data on physical activities and important clinical parameters (such as how the patient is active or just staying in bed during the day), on a daily basis. The HG Phoenix AI- based Smart Watch produced by Health Gauge, an Albertan company based in Edmonton, has the potential to measure heart rate, heart rate variability, blood pressure, pulse wave velocity, respiratory rate, temperature, arterial saturation, sleep pattern (deep, light sleep, awake time), duration and time, daily physical activities (site count and distance) and calories burnt in a simple and non-invasive fashion. Ideally, these parameters could be monitored and recorded 24 hours per 7 days per week. This study aims to demonstrate that this device can be used for a long time at home and it is comfortable to use for the participants, that it is not dangerous and, possibly, that it can help to identify exacerbations before the currently available investigations.
This research study is being conducted to evaluate the feasibility of using technology to deliver a remote home exercise program and assess the health outcomes of patients with chronic lung diseases. Specific objectives are to assess the interventions on patients: 1) Lung function, 2) Dyspnea, 3) Fatigue, 4) Exercise capacity, 5) Self-efficacy, and 6) Health-related quality of life. The investigators will also be evaluating the practicality of using videoconferencing and commercial wearable telemonitoring devices (ie. smart watches) for the implementation of the intervention in this group of patients.
The purpose of the study is to conduct a descriptive analysis of the population of patients with an interstitial lung disease received in the pulmonary department of University hospital of Nice (France). Analysis and documentation of clinical forms of the disease, therapeutics used and evolutions.