View clinical trials related to Lung Diseases, Obstructive.
Filter by:Purpose of the research; To determine the effects of wearable technology follow-up, breathing exercises with a breathing exercise device and reading aloud on vital signs, fatigue and respiratory function parameters in individuals with COPD. This research will be conducted using a randomized controlled trial model. "Personal Description Form", "COPD and Asthma Fatigue Scale", Visual Analog Scale and pulmonary function tests will be used in data collection.
It has been observed in the literature that respiratory muscle electromyography activations at certain threshold loads have been examined in individuals with chronic obstructive pulmonary disease. However, no study has been found in the literature examining the acute effects of respiratory muscle training given at low, medium and high threshold loads on respiratory muscle activations. With this planned study, it is aimed to examine the electromyography activations of respiratory muscles before and after respiratory muscle training and to contribute to the literature by comparing the acute effects of respiratory muscle training applied at low, medium and high intensity on respiratory muscle electromyography activations.
Chronic Obstructive Pulmonary Disease (COPD) affects the airways that causes shortness of breath, cough. COPD gets worse over time, and often leads to emergency department visits, hospital visits, frequent doctor appointments and medications. This means COPD is expensive, and severely impacts patient quality of life. Unfortunately, patients are often not properly diagnosed until their disease is fairly advanced. We know a lot about the health care use of people with COPD once they have been diagnosed, but we do not know much about what happens to them leading up to their diagnosis. Through this project we want to better understand the time period prior to COPD diagnosis, so that we can learn more about what happens to people before they are diagnosed. This project will use health data to find out if we can identify trends in health care use by individuals newly diagnosed with COPD. We will identify people that have COPD based on health records, and look back to find out about their health care use prior to their diagnosis. We will look at data related to doctors' visits, emergency department visits, hospital stays and medications. We want to use these markers to better understand what happens to people before they are diagnosed, and to find out if we can identify risk factors for a COPD diagnosis. We hope by doing this research we can better identify people at risk for COPD and ensure that they receive treatment early, which may improve their health outcomes.
This study aims to use novel proton-based MRI techniques to assess lung function and structure in healthy volunteers and patients with chronic obstructive pulmonary disease (COPD) and alpha-1-anti-trypsin deficiency (A1ATD). These novel MRI measures will be compared to matched contemporary clinical diagnostic tools, namely pulmonary function tests (PFTs) and computed tomography (CT) scans. MRI has the advantages of avoiding ionising radiation exposure (unlike CT scans) and can also provide regional measures of lung function (unlike PFTs which provide global measures of function). In addition, these MRI techniques do not require the use of any inhaled or injected contrast agents. Some patients enrolled in this study will be undergoing a lung volume reduction (LVR) procedure as part of their normal clinical care. LVR is an intervention for patients with severe lung disease and hyperinflation. It is a palliative therapy that helps to reduce lung hyperinflation through insertion of small valves in the airway or surgical removal of parts of the lung. This can lead to improvements in symptoms such as breathlessness and improve exercise tolerance due to better functioning of the lung. In this study, we will explore how lung MRI measures can be used to assess patients before and after an LVR intervention. This study will take place at the University of Nottingham in collaboration with Nottingham University Hospitals NHS Trust. The study will last for 3 years and participants will be asked to attend a screening visit (lasting up to 1 hour) and either one or two study visits (each lasting up to 3 hours).
This project will observe and follow up the changes of pulmonary function and CT in patients with smoking combined with pulmonary tuberculosis, and measure the ratio of Th1 cells, Th17 cells, macrophages and neutrophils and the secretion of factors such as TNF-α, IFN-γ and IL-17 in pulmonary blood and alveolar lavage fluid.
To identify the clinical characteristics of patients with chronic obstructive pulmonary disease (COPD) combined with community-acquired pneumonia (CAP) and the factors influencing clinical transition.
Evidences have shown that systemic glucocorticoid cannot not be benefit to all of the patients with AECOPD. The problem that how the clinicians can screen the patients who can benefit from systemic glucocorticoid needs to be solved. Our previous study found that serum metabolites profile in COPD patients differed from that in controls. Therefore, we hypothesized that metabolome changes in patients with AECOPD may be associated with the efficacy of systemic glucocorticoid. In this study, we will utilize ultraperformance liquid chromatography / mass spectrometry (LC-MS) and gas chromatography / mass spectrometry (GC-MS) methods for analysis of the metabolites in AECOPD patients and compare the metabolites profiles between patients with systemic glucocorticoid treatment success and treatment failure. We aim to detect the metabolic biomarkers and metabolic pathways which are related to efficacy of systemic glucocorticoid and contribute to the precise treatment of COPD.
Chronic respiratory diseases such as obstructive sleep apnea syndrome (OSA) and chronic obstructive pulmonary disease (COPD) constitute a major public health problem, due to their high prevalence, but especially because of their cardiovascular and metabolic morbidity and mortality and the associated costs for the health system. The organization of long-term management of these diseases is now part of the e-health process, digital health with the use of massive "big data" generated by care and follow-up. Therapeutic patient education and the integration of connected objects will allow personalized therapeutic education support with interventions by local medical staff adapted to the needs of the patients. This will also allow to objectify the effect of treatments such as continuous positive airway pressure (CPAP) for OSA or non-invasive ventilation (NIV) and/or oxygen therapy for COPD, not only on the prevention of respiratory decompensation but also on cardiovascular and metabolic risk factors which are major elements of the prognosis. This project will therefore make it possible to demonstrate the feasibility and to deploy a multi-actor care pathway in the territory. The investigators propose a prospective clinical study, conducted at the Verdun Hospital, with the main objective of studying the evolution of the quality of life of patients with a chronic respiratory pathology, during an integrated management at home for 6 months. The secondary objectives: - To study the evolution of the following parameters, before treatment (at inclusion) and after 6 months of integrated management: 1. Treatment compliance (CPAP or NIV/oxygen therapy) 2. Physical activity 3. Weight 4. Mean arterial pressure 5. Oxygen saturation, heart rate and respiratory rate for COPD patients 6. Severity of COPD for the patients concerned 7. Daytime sleepiness 8. Fatigue 9. Patient acceptability of the use of connected objects - To analyze the trajectories of the measures collected throughout the integrated management to identify specific profiles. - To analyze the daily data of the different connected objects and treatments with regard to the patients' profiles (according to age, gender, comorbidities, OSA or COPD group).
There are few studies about immunological explorations in COPD. Because of the complications of lung biopsies, analyses are generally made on blood samples instead of lung tissue. No study tried to classify COPD vs Asthma vs ACOS. The investigators wondered if there were differences in biomarkers between these groups. The investigators decided to open a pilot-study among COPD patients followed in Amiens-University Hospital. Each patient will be examined and a blood-test will be performed.
New approaches to care transitions must deploy a longer-term and more intensive program that provide an array of services that address underlying social determinants of health (e.g. lack of adequate social support, lack of self-efficacy in managing symptoms and medications, impoverished living conditions, inability to connect with primary care and access. In addition, programs must be adaptable to meet the specific needs of individual patients. Our collaboration of health services researchers, quantitative scientists, and physicians propose to develop and implement a 90-day intensive and comprehensive intervention to support newly discharged patients with COPD and/or CHF. The proposed intervention will utilize a three-person team (registered nurse, clinical social worker, and a pharmacist) to provide an array of medical and social services specifically targeted to meet the needs of individual patients and their families. Aim: To determine using a randomized control trial, whether participation in an intensive series of 7 home-visits that provide tailored medical and social services among newly discharged low-income Medicare patients with COPD and/or CHF results in a) better patient-reported outcomes and b) a reduced likelihood of repeat hospital care (ED use or hospitalization) relative to a group of patients who receive usual discharge instructions.