View clinical trials related to Lung Diseases.
Filter by:The aim of this proposed study is to evaluate the efficacy and safety of hydroxychloroquine (HCQ) in children's interstitial lung diseases(chILD) with genetic causes. This study is a randomized controlled clinical trial.
This study is designed to test whether the Inflammacheck⢠device is easy to use by healthcare professionals who would be using it in a clinic setting or in primary care. The data collected during this study will be used as part of the evidence needed to get the CE (Conformité Européenne) marking for the device. CE marking is a certification mark that indicates conformity with health, safety, and environmental protection standards for products sold within the European Economic Area (EEA). CE marking is essential for any medical devices used in the UK or the EU.
The increasing incidence of chronic respiratory disease is a public health problem that affects hundreds of thousands of people worldwide at all ages. Directly exposed to atmospheric airborne contaminants (pollution, allergens), the respiratory tract represents a complex ecosystem involving different cells (multiciliated, basal, mucosecretory, neuroendocrine, etc.) that develop complex interactions with the surrounding connective tissue but also with their rich immune environment and the local microbiota. Although a pathophysiological continuum is postulated between the nasal and bronchial airways in certain diseases, such as allergic diseases, investigators have demonstrated large gene expression gradients between samples taken from the nasal and bronchial airways in different studies. Specifying the cellular variability throughout the respiratory tree in a normal physiological situation is one of the major objectives defined in the establishment of an atlas of all airway cells, as defined in the objectives of the international consortium Human Cell Atlas. The sequencing of the RNAs present specifically in each individual cell ("single-cell RNAseq"), and its comparison with neighbouring cells allows to document the precise cellular contributions, as well as the signalling pathways involved. The development of tissue sampling, stabilization, transport and single cell analysis procedures can be performed on primary respiratory epithelium cultures and can also be extended to respiratory samples from healthy volunteers. This project will analyze gene expression profiles at the single cell level (single cell RNAseq) in volunteers with chronic obstructive pulmonary disease, interstitial pulmonary fibrosis and compared to healthy subjects of the same age. The technical modalities of the samples will be brushing and staged airway biopsies for direct analysis of the samples. This approach will be complemented by an air-liquid interface culture to allow secondary analysis in single cell RNAseq and three-dimensional mapping of the distribution of these cells with single cell in situ analysis. Thanks to sampling at several levels of the respiratory tree (nose, bronchioles, bronchioles), cellular and gene expression variations along the tracheobronchial axis will be exhaustively documented in subjects of different ages, healthy or suffering from pathologies such as chronic obstructive pulmonary disease and interstitial pulmonary fibrosis. These data will serve as worldwide references for comparisons in different physiological and pathological contexts.
The purpose of this study is to evaluate long-term safety and efficacy outcomes following previously administered short-term exposure to SHP607, as compared to a standard neonatal care group.
HYPOTHESIS: During anesthetic pre-oxygenation with high FiO2, pulmonary atelectasis occur, especially in patients < 6 years old, where FRC and pulmonary closing volume may overlap. New borns and children <1 year old are especially vulnerable. OBJECTIVES: 1. Validate "air test" as a individualized and non-invasive diagnostic method of clinically significant atelectasis in pediatrics. 2. Determine what other factors contribute to atelectasis development in pediatrics METHODS: 30 pediatric patients will be studied with ages ranged between 45 postconceptional weeks and16 years old. Baseline SpO2 and lung ultrasound will be performed for each patient upon arrival at the operating theatre before preoxygenation with FiO2 of 1.0 SpO2 will be measured 15 min after intubation during a 5 min long "air test" trial (FiO2 0.25). lung collapse will be verified by lung ultrasound at the end of the 15 min trial. Lung collapse will be eventually granted upon lung US verification by a blind researcher.
Interstitial Lung Abnormalities (ILA) have been previously defined as nondependent changes affecting more than 5% of any lung zone on computed tomography (CT) scans of the lung. Several studies suggest that the prevalence of ILA in participants in non-pulmonary research studies ranges anywhere from 7-9%. Work over the last decade has shown that, despite previous characterization as an asymptomatic research finding, ILA has significant clinical and biological consequences. These include reduced exercise capacity, functional limitations, decreased lung volumes, increased mortality, and in some cases histopathology similar to Idiopathic Pulmonary Fibrosis (IPF). ILA have been detected in lung cancer screening cohorts, where the prevalence of ILA is estimated to be between (10%-20%) to those noted in other research cohorts. Given that a significant proportion of those will have progression, CT lung cancer screening (CTLS) cohorts represent an ideal catchment population for future research and clinical trials. Lahey Hospital and Medical Center was one of the earliest clinical centers to develop a CTLS program in the country. Investigators propose to qualitatively characterize ILA in a large clinical CTLS population.
Pediatric idiopathic pulmonary hypertension has significant morbidity and mortality. An ever expanding body of knowledge indicates the important contribution of inflammation to pathogenesis and successful treatment with glucocorticoids. Over the last several years the investigators have utilized steroids in patients with severe pulmonary hypertension as part of a treatment regimen. These basic science studies possibly identifies a biochemical etiology for the development of disease and may also be impacted by the administration of steroids. Additionally, there is a commercially available assay which tests for all of the above molecules.
Chronic Obstructive Pulmonary Disease (COPD) is a respiratory condition which affects approximately 3 million people in the UK and 210 million worldwide. The disease is characterized by progressive air flow obstruction and decline of lung function. COPD is currently the fourth leading cause of death in the world. The main reason for hospitalisations associated with COPD is exacerbations (chest infections or a worsening of the underlying symptoms). Severe COPD exacerbations are the second largest cause of emergency admissions in the UK. Mild and moderate exacerbations can be managed in the community but if they are not identified promptly they may progress to breathlessness and in some patients to respiratory failure. Thus, finding modalities for early detection and diagnosis of exacerbations is clearly a priority for current and future COPD research. However, these still do not exist. The aim of this study will be to acquire acoustic respiratory signals from COPD patients with a small wearable device. These signals will be subsequently used to carry out engineering research with the objective of trying to find "fingerprints" in them which could be early indicators of disease exacerbations. If those "fingerprints" were found, subsequent research could focus on trying to create software methods which, together with the use of a small wearable device, would aim at automatically detecting exacerbations when they are at very early stages- prior to the symptoms being evident to the patient- so that clinical intervention could be triggered, in order to optimize the disease outcomes.
The purpose of this study is to evaluate the safety and collect data on the initial effectiveness of a 1.1mm flexible single-use cryoprobe with oversheath used for transbronchial lung biopsy via a bronchoscopic approach.
The aim of this study is to evaluate the effects of inspiratory muscle training program in inspiratory muscle endurance, breathlessness, inspiratory muscle strength, functional capacity and quality of life in patients with interstitial lung disease. Patients are evaluated before the inspiratory muscle training and after 8 weeks of training.