View clinical trials related to Chronic Obstructive Pulmonary Disease.
Filter by:This study proposes to use hyperpolarized xenon-129 Magnetic Resonance Imaging (MRI) to study lung function of COPD patients who will receive endobronchial valve (EBV) therapy as part of their clinical standard-of-care. Once inhaled, HP xenon can provide information to imagers regarding functionality across specific regions of the lungs through the assessment of the replacement of air during the normal breathing cycle, how much oxygen is in the airspaces, and if the normal spongy tissue structure has been compromised by lung disease. Pre- (baseline) and post-EBV (follow-up) lung function imaging with HPXe will potentially lead to be better understand disease progression and treatment mechanism.
The purpose of the study is to obtain pharmacokinetics, safety and tolerability data after single administrations of CHF6001 in subjects with mild, moderate and severe renal impairment as well as healthy volunteers under the same setting.
Recruitment of patients with COPD. Assessment of clinical status, determination of vitamin D and cathelicidin levels. In the group with vitamin D deficiency, patients receive cholecalciferol (vitamin D) daily for 3 months. After 3 months, the clinical status was assessed again, the level of vitamin D and cathelicidin was determined. When vitamin D levels normalize, cholecalciferol replacement therapy is discontinued for 3 months. After that, a control inspection and laboratory tests are performed.
Preferred pharmacological management for COPD according to the GOLD guidelines are the long-acting anticholinergic LAMAs (Long-Acting / Short-Acting Muscarinic Antagonists), and long-acting β 2-Agonists LABA (Long-acting LABA) / β2-Long Action Fighters) as well as inhaled corticosteroids (ICS) Other drugs that can be used besides long-acting, are short-acting anticholinergics (SAMA) and β2-agonists (SABA), methylxanthines (Aminophylline and Theophylline), mucolytics and phosphodiesterase inhibitors 4 (Phosphorus) of which is roflumilast
Chronic obstructive pulmonary disease (COPD) patients with mucus hyper secretion tend to demonstrate increased frequency of infective exacerbations and a steeper slope of decline in lung function. Enhanced mucosal clearance with high frequency chest wall oscillation (HFCWO) devices previously used in cystic fibrosis and bronchiectasis patients may offer the opportunity for community based, self-managed therapy to improve quality of life and lung function. The aim of this study is to compare effects of active cycle of breathing and high frequency chest wall oscillations in chronic obstructive pulmonary disease .This study will be a Randomized Clinical trial and will be conducted at Physical Therapy Department of DHQ Hospital NAROWAL. The study will be completed within the time duration of six months. Consecutive sampling technique will be used to collect the data. A sample size of Total 42 patients will be taken in this study. Patients will be divided into two groups. BODE Index will be used as outcome measurement tool. Group A will receive the Active cycle of breathing technique and it will performed twice a day for 4 week intervention period for 20 minutes. Group B will receive high frequency chest wall oscillations at 13-15Hz oscillating frequency for 20 minutes twice a day for 4 weeks. The collected data will be analyzed on SPSS - 25.
Single-center, two-arm, parallel, randomized controlled trial comparing enhanced daily assessments for patients with COPD and/or CHF using point of care ultrasound with PRESUNA software (POCUS-PRESUNA) versus standard care provided by home-based acute care through a tertiary acute care medical teaching hospital. The objectives are to evaluate POCUS-PRESUNA on improving patient experience, provider experience, improve healthcare utilization/costs, and to test the feasibility of incorporating longitudinal POCUS assessments in home-based acute care via remotely acquired images by non-physicians.
Research Background Chronic obstructive pulmonary disease (COPD) is a progressive chronic lung disease that makes breathing difficult with mucus build-up in the inflamed airway and lungs hyperinflation due to expiratory flow limitation. Global Initiative for Chronic Obstructive Lung Disease (GOLD) defines COPD as a common, preventable and treatable disease with significant morbidity and mortality, and incurs intensive expenditure of healthcare resources. This disease is currently the fourth leading cause of death in the world but is projected to be the 3rd leading cause of death by 2020. In 2012, global death from COPD accounted about 6% which equal to more than 3 million deaths in world population. The mortality burden of COPD is expected to rise to 8.6% by 2030. In Malaysia, the prevalence of moderate to severe COPD in Malaysia in 2010 is 4.7% which equals to 448,000 cases. COPD is attributed by long-term exposure to noxious particles and toxic gases. Tobacco smoking is the main cause of COPD globally. The Third National Health and Morbidity Survey (NHMS III) conducted in Malaysia in 2006 showed that the prevalence of male ever smokers was 57.6% and in female is 2.5%. Other than that, inhalation of organic or chemical dust and fumes, and biomass exposure also among the risk factors of COPD. Exposure to noxious particles will cause activation of inflammatory immune responses. However, continuous and repetitive exposure towards these noxious particles will lead to tissue remodelling in small airways causing smooth muscle hypertrophy and fibrosis causing major site of obstruction in COPD. In COPD patients, the small airways represent the key sites of airflow obstruction, and small airway disease (SAD) is considered a functional hallmark of disease. The presence of SAD progressively increases with higher GOLD classifications and it is closely related to the high impact of disease measured by COPD Assessment Test (CAT) questionnaire. Distributions of SAD among COPD patients classified according to GOLD classification. In each of GOLD A, B, C and D class, the prevalence of SAD are 49%, 88%, 61%, and 96% respectively. As presence of SAD is closely related to high impact of disease with CAT score ≥10 , they tend to have more symptoms.
Background: Non-invasive ventilation (NIV) reduces respiratory load and demands on peripheral muscles. Methods: This study aims to evaluate the acute effects of bi-level NIV on peripheral muscle function during isokinetic exercise and aerobic performance in chronic obstructive pulmonary disease (COPD) patients. This is a pilot crossover study performed with a non-probabilistic sample of 14 moderate to very severe COPD patients. Procedures carried out in two days. Dyspnea, quality of life, lung function, respiratory muscle strength, functional capacity (6-minute walk test - 6MWT), and isokinetic assessment of the quadriceps were assessed. Blood samples (lactate, lactate dehydrogenase, and creatine kinase concentration) were also collected. Right after, NIV was performed for 30 minutes (bi-level or placebo, according to randomization) followed by new blood sample collection, 6MWT, and isokinetic dynamometer tests. Before and after evaluations, the subjective perception of dyspnea and fatigue in the lower limbs was quantified. After a wash-out period of seven days, participants returned, and all assessments were performed again.
Different studies have suggested that COPD is associated with elevated alveolar NO and increased expression of NOS2 in alveolar walls, small airway epithelium and vascular smooth muscle. Furthermore, arginase activity in COPD is shown to correlate inversely with total NO metabolite in sputum and with pre- and post- bronchodilator FEV1; at the same time ADMA levels in serum is shown to be correlated with airway resistance and ADMA in COPD airways was documented to be able to shift the L-arginine metabolism towards the arginase pathway. As demonstrated in a guinea pig model, the arginase inhibition can shift the L-ornitine: L-citrulline ratio towards L-citrulline, preventing neutrophilia, mucus hypersecretion and collagen synthesis. Thus, increasing substrate availability for NOS by arginase inhibition or supplementation of L-arginine or L-citrulline or a combination thereof, may represent a window of opportunity in patients with COPD. The present study was constructed in order to investigate as a primary objective whether in symptomatic patients with COPD, daily bioarginine on top of chronic inhaled therapy can improve patients' respiratory symptoms and dyspnea during daily life activities. The secondary objective of the study is to determine whether there is any correlation between improvement in respiratory symptoms and distance walked at the 6MWT and lung function parameters. In order to do so, the investigators designed a multi center, interventional, prospective, randomized, controlled vs placebo, proof of concept study: COPD patients will be randomized to receive BioArginine twice daily on top of chronic inhaled therapy or to continue their chronic Inhaled therapy plus placebo for 6 weeks. In order to evaluate the impact on respiratory symptoms and dyspnea the CRQ (Chronic Respiratory disease Questionnaire) and the LCADL (London Chest Activities of daily Living) Scale, as well as the 6MWT, will be used.
This phase II trial tests whether oral iloprost works in preventing lung cancer (chemoprevention) in former smokers. Oral iloprost has previously been shown to reduce abnormal lung cells in former smokers, suggesting a clinically significant impact on lung cancer risk. The use of oral iloprost may help keep cancer from forming and reduce abnormal cells in the lung in order to lower the risk of developing lung cancer in former smokers.