View clinical trials related to Chronic Obstructive Pulmonary Disease.
Filter by:Pulmonary rehabilitation (PR) including exercise training is highly effective by improving health-related quality of life, exercise capacity and symptoms in patients with chronic obstructive pulmonary disease (COPD). Therefore, PR is a main component in the management of COPD. In a former study patients with Alpha-1 Antitrypsin deficiency (A1ATD)-related COPD (genotype PiZZ) have been found to show smaller improvements in exercise capacity after a 3-week inpatient PR program compared to COPD patients without A1ATD (genotype PiMM)[1]. These between-group differences were mirrored by missing adaptations of the fatigue-resistant skeletal muscle fibre type I in A1ATD patients. This was in contrast to COPD patients without A1ATD who increased the proportion of this fibre type after PR. Myofibre type I is crucial because it enables patients for physical endurance activities (walking, cycling etc.) during their daily life. The aim of this study is to compare the effects of an exercise Training program with high vs. moderate Training intensity in order to find a Training modality which improves Training effects in A1ATD patients.
In the context of pulmonary rehabilitation of COPD patients, recent guidelines and metanalysis describe that Resistance Training (RT) can be successfully performed alone or in conjunction with Endurance Training (ET) without evidence of adverse events. Maximal Strength Training (MST) is a kind of RT typically performed at ~85-90% of 1RM with maximal velocity to be developed in the concentric phase. Recent literature indicates a significant amelioration on the Rate of Force Development (RFD) after MST in healthy subjects, post-menopausal woman and older populations. When comparing to the conventional ET, MST generates a little change in muscle mass (no hypertrophy), but a much greater improvement in the RFD. It has been described that neural adjustments play a major role in the MST-induced adaptations. MST is also well documented to improve aerobic endurance by improving walking work efficiency. Only a small cohort study of COPD patients was conducted, describing that MST can meaningfully improve strength and RFD, with an increase of around 32% for mechanical efficiency and a decrease of the perceived effort during submaximal job. This improvement could determine best performances in daily activities and a best quality of life. The main aims of this physiological pilot randomized controlled trail will be to evaluate feasibility and efficacy of the MST compared to standard ET on strength, effort tolerance, fatigue, economy of walking, dyspnea and risk of falls in a populations of COPD patients, in a short and middle term (6 months).
Persons with COPD have significant functional disability but cannot access rehabilitative treatment at hospital-based conventional pulmonary rehabilitation (PR) programs. This project will determine whether an Internet-mediated, pedometer-based walking program can increase physical activity in persons with COPD who qualify for but cannot access PR, compared to usual care. This proposal has high potential to deliver an immediate solution to a pressing clinical need. The proposed research addresses Rehabilitation R&D Service's current priority area of improving disabled Veterans' health-related quality of life by reducing disease burden and maximizing functional recovery.
This study evaluates the effect of of a structured self-management intervention plan in patients with chronic obstructive pulmonary disease in primary care setting.Half of the participants will receive the self-management plan while the other half will receive usual care.
In the present investigation, in 50 COPD with persistent hypercapnia after an acute exacerbation, the investigators want to assess the acceptability of HFNC and its effectiveness in further reducing the level of PaCO2, and to eventually verify the hypothesis, based on previous physiological studies, that the response to HFNC is dependent on the level of baseline hypercapnia and eventually on the presence of overlap syndrome. This latter parameters to eventually calculate the sample size and the target population to perform future definitive randomized long term trials vs NIV.
A tailored management of COPD patients would obviously allow to reduce costs for hospitalizations and improve quality of life. This management could benefit of the Information and Comunication Technology support, which can offer the possibility of telemonitoring patients without the need of repeated hospital visits and improving the efficacy of healthcare services. Moreover, the high frequency of exacerbations and their often atypical clinical presentation in the aged patient make particularly desirable the availability of a telemonitoring system which could guarantee continuous control and early intervention in case of necessity. The aim of the present study is to test an innovative telemonitoring system in patients with COPD.
COPD is underdiagnosed and spirometry is not widely available in primary care settings. This study explore the value of PUMA´s questionnaire in a case finding strategy to detect patients to perform spirometry in a real world scenario of primary care health venues.
PRIME goal is to early detect and treat acute exacerbations of chronic obstructive pulmonary disease (AECOPD). This is important since COPD accelerates aging and represents major burden worldwide and in Portugal, mainly due to its frequent AECOPD. Pulmonary rehabilitation (PR) is an effective strategy of its management but it is scarce. When AECOPD are early detected and treated, it optimizes patients' outcomes and reduces the burden of COPD, especially if PR is used. However, up to date, there is no model to predict AECOPD for clinical practice. The lung microbiota shows promise to overcome this barrier and inform on COPD trajectory and will be investigated. In addition, despite of most AECOPD being managed in the community, PR is mainly available in hospitals and less than 1% of patients are having access. Thus, community-based PR will be implemented and a clinical decision tool developed for prioritizing who will most benefit from PR, enhancing evidence-based access to PR.
Chronic obstructive pulmonary disease (COPD) is a lung disease caused by cigarette smoke that affects millions of people. In the United States, COPD is the 3rd leading cause of death making it one of our most important public health problems. Some people with COPD get disease flares that are called acute exacerbations of COPD - or AECOPDs for short. When people get an AECOPD they experience increased shortness of breath, wheezing and cough; symptoms that often require urgent or emergent treatment by healthcare providers. In the most severe, life-threatening situations, people with AECOPDs are put on a ventilator in the emergency department and admitted to the intensive care unit. Most AECOPDs can be treated with low doses of medications called steroids. This is good because high doses of steroids can cause unwanted side effects. Unfortunately, recent studies suggest that the sickest people, those admitted to the intensive care unit needing ventilator support, need higher doses of steroids because they may have resistance to these important medications. The investigators are studying steroid resistance during very severe AECOPDs so that we can eventually develop better and safer therapies for these vulnerable people.
Chronic obstructive pulmonary disease (COPD) is the 4th leading cause of death worldwide and affects 1.2 million people in the UK, costing the NHS >£800 million annually. COPD patients are more susceptible to bacterial infections and both chronic and acute infections are common. COPD patients with chronic lung bacterial infection have worse quality of life, faster disease progression, more symptoms and frequent exacerbations. Acute infections are the main cause of COPD exacerbations which cause COPD patients to become acutely unwell and often result in hospitalisation especially in the winter. Antibiotics are frequently used to treat COPD exacerbations and this contributes to the development of antibiotic resistance. Therefore there is a need to develop antibiotic-independent approaches to reducing or preventing bacterial infection in COPD. The investigators have carried out work in in animal studies and in humans showing that there is a link between high levels of glucose in the lung and bacterial lung infection. Levels of glucose in the lung are higher in COPD patients compared with people without COPD. These higher glucose levels support greater bacterial growth probably because glucose is a nutrient for bacteria. Therefore reducing airway glucose has the potential to inhibit bacterial growth in COPD patients. In animal studies the investigators have demonstrated that the diabetic drug metformin decreases airway glucose and bacterial growth. The investigators wish to determine if metformin can achieve the same effects in COPD patients. Metformin is safe and cheap, and has been extensively used in COPD patients with diabetes with an excellent safety record. The primary aim of this study will be to determine whether metformin reduces lung glucose in a small group of non-diabetic COPD patients. If it demonstrates that metformin reduces lung glucose concentrations it will justify a larger clinical trial of metformin as a treatment for COPD.