View clinical trials related to Exacerbation Copd.
Filter by:Although we know that these numbers are underestimated, Chronic obstructive pulmonary disease (COPD) is a common chronic respiratory disease that affects between 8 and 12% of adults. According to a 2020 WHO report, it is the third most common cause of mortality in developed countries. This disease is punctuated by exacerbations associated with an 8% mortality of hospitalized patients, increased to 24% when the patient is admitted to intensive care unit. Early detection and treatment of these exacerbations appears to be essential to improve patient survival. End-tidal carbon dioxide (EtCO2) is used to assess a patient's respiratory and hemodynamic status. Indeed, EtCO2 is a non-invasive measure that could allow the estimation of arterial carbon dioxide (PaCO2) without performing blood gases, an arterial blood sampling, classically at the radial artery. This study aimed to find an EtCO2 value which at the time of the initial management, would be predictive of a severe COPD exacerbation, as well as PaCO2.
The main objective of this RE-SAMPLE cohort study is to identify from a real-world data (RWD) set that will be collected, a subset of data that can be potentially used as important predictors and parameters for disease progression of COPD and complex chronic conditions, and multi-morbid exacerbations. The secondary objective is to evaluate the feasibility of RWD collection from a patient's perspective. Study design: This is a prospective observational cohort study to collect RWD in patients with COPD and complex chronic conditions, with a maximum of 38 months of follow-up. Measurements are performed and RWD are collected by using the Healthentia mobile phone application at baseline (e.g. patient characteristics), daily (e.g. symptom diary), during follow-up visits and at deterioration, and from hospital data (e.g. healthcare visits). The choice of parameters and measurement tools that will be collected during the cohort will be updated every three months during the first year of the cohort (via protocol amendments). These updates are based on citizen-design sessions and on new literature insights. Prognostic models will be developed including predictors derived from the RWD collection.
The purpose of this study is to investigate the anti-viral effects of low-dose AZM treatment in patients with asthma and COPD with an exacerbation history. The investigators expect that long-term treatment with low dose AZM modulates the immune response to viral infections, with an increased interferon release, in patients with asthma and COPD with an exacerbation history. In addition, the investigators expect a decrease in inflammatory cells and mediators, and changes in bacteria, measured in samples from the lungs. Half of the participants will receive azithromycin on top of their regular asthma/COPD treatment, while the other half will receive placebo on top of their regular asthma/COPD treatment.
Chronic obstructive lung disease is a disabling disease that affects people usually after several years of smoke tobacco exposure and affects millions of patients worldwide. The disease is marked by multiples episode of worsening, termed exacerbations necessitating frequent hospitalizations. During these exacerbations, patients present breathless, and in the most severe cases, are admitted to an Intensive Care Unit (ICU) for respiratory assistance. Currently, respiratory assistance is provided by a ventilator via a oronasal mask (referred to non-invasive ventilation, NIV), that helps patients to cope with their breathless. The mask is not always well tolerated and the ventilator sessions are delivered intermittently. In the past decade, a new technique that provides air-oxygen with high flow has been developed. This technique, called High Flow via Nasal Cannula (HFNC) can deliver from 21 to 100% heated and humidified air-oxygen at a high flow of gas via simple nasal cannula. Recent studies have shown that the technique is very efficient to treat patients presenting with acute respiratory failure who don't have any underlying chronic pulmonary disease. Whether the technique would be also efficient in patients with COLD presenting with severe exacerbations has not yet been demonstrated. Since HFNC does not require any mask, it is thought that the comfort of the patient would be much better in comparison to NIV and could potentially help to treat many patients with the disease. The objective of the present study is to study the physiological effect of HFNC as compared to NIV in patients with severe exacerbations of COPD and to show that it is non-inferior to NIV.