View clinical trials related to Lung Diseases, Obstructive.
Filter by:110 COPD patients who were participated in the PR program were included in the study. Resting Heart Rate , pulmonary functions, functional capacity, perception of dyspnea, quality of life and psychological symptoms compared before and after PR.
The ELVIS study compares the nasal high-flow to non-invasive ventilation in treatment of acute acidotic hypercapnic exacerbation of chronic obstructive pulmonary disease.
The Investigators plan a single center study to get preliminary data to answer a number of fundamental questions directly related to management of COPD. The research will determine whether ventilation heterogeneity and distribution of ventilation inform, determine, assist or drive the: 1) status or clinical course in patients with COPD, 2) understanding of factors associated with activities of daily living and quality of life in patients , 3) risk of exacerbation or hospitalization in those with COPD, and 4) predictors of therapeutic pathway or treatment regime.
Using weight training with virtual reality can help after discharge patients of acute exacerbation of chronic obstructive pulmonary disease, which maintained their quality of life, and improved their exercise capacity, pulmonary function, readmission condition.
In Qena university hospital a prospective, randomized study was carried out on 100 COPD patients, all were divided into; conventional therapy without NIV (C group) 50 patients or with prophylactic NIV(N group) 50 patients.NIV applied for approximately 30 to 45 min at 2- to 4-h intervals for 48 h following surgery . Primary endpoint was the acute respiratory events (ARE) .Secondary endpoints were acute respiratory failure (ARF), intubation rate, mortality rate, infectious and non-infectious complications, and ICU stay.
This study is aiming at explore the characteristics of intestinal microbiome during the early progression of COPD, the correlation between the changes of intestinal microbiome and the severity and risk of acute exacerbation of COPD, the correlation between microbial metabolites SCFA and immune function of COPD. Then reveal the influence of intestinal microecology on the development of COPD and the possible mechanism of intestinal microecology in the pathogenesis of COPD.
The purpose of this study is to evaluate the stepping-up effect from a double ICS/LABA DPI therapy to a triple DPI therapy on airway geometry and lung ventilation
Individuals with severe chronic pulmonary disease often life isolated with a high burden of symptoms. Nutritional risk and low quality of life are common, and both associated with increased societal cost and poor prognosis. COPD is a complex and progressive disease with changing clinical states that influences nutritional status and quality of life in different ways. The primary aim is to improve quality of life for individuals with severe COPD. 120 individuals are recruited from the outpatient clinic at Nordsjællands Hospital in Denmark to a randomized controlled trial with two parallel groups (intervention and control). The intervention will last for 3 months comprising four elements including nutritional plan, regular contact, informal caregiver/friendly reminder and a weight dairy. We expect that the intervention will improve quality of life, nutritional status and prognosis.
Chronic diseases are frequent (around 10% of the total population and 30% after 60 years) and accelerate age-related functional decline. Concerning cross-border patients, use of health services can be delayed given the distances, the lack of rapid road access and the limited availability of public transport and the complex organization of coordinated care. One of the ways to reduce acute exacerbations and preserve the quality of life of patients is to detect warning signs early. One of the ways to do this is to use new communication technologies.
The overlap between chronic obstructive pulmonary disease (COPD) and bronchiectasis is a neglected area of research, and it is not covered by guidelines for clinical practice. COPD and bronchiectasis share common symptoms of cough with sputum production and susceptibility to recurrent exacerbations driven by new or persistent infection. Physiological criteria for the diagnosis of COPD and structural criteria for the diagnosis of bronchiectasis create the possibility for individual patients to fulfil both, resulting conceptually in either co-diagnosis or an overlap syndrome between the two conditions. The prevalence of this overlap will vary depending on the respective prevalence of COPD and bronchiectasis in the population under consideration. A recent study of 201 COPD patients with airway wall abnormalities typical of bronchiectasis confirmed an association with exacerbations and was predictive of mortality over 48 months. A further, single-centre study demonstrated a near three-fold increased mortality rate, with patients with bronchiectasis and associated COPD having a 5-year mortality of 55%, compared with 20% in those with bronchiectasis without COPD. Airflow obstruction is perhaps best considered one marker of disease severity in bronchiectasis. Disease-associated exacerbations have a major effect on patient healthcare costs as well as quality of life due to increased lung damage and mortality risk. Microorganisms such as Pseudomonas aeruginosa and, to a lesser extent, other Gram-negative and Gram-positive microorganisms identified in culture, have been linked to disease progression, poor clinical outcomes in bronchiectasis and driving airway neutrophil-mediated inflammation. The microbiome has the potential to provide valuable information regarding disease phenotype/endotype, treatment responses and targets for future therapy.