View clinical trials related to Lung Diseases, Obstructive.
Filter by:Objective: is to find out the effect of unsupported upper extremity exercise versus lower extremity exercise on dyspnea and lung function Methodology: Sample and design: 60 patients with Randomized study design will be included in three groups. Duration of intervention: Treatment will continue for 4 weeks. Outcome: Borgs scale and Medical Research Council scale (MRC) for dyspnea will be used to quantify the dyspnea. Lung function tests measure by PEFR, chronic obstructive pulmonary disease assessment test (CAT) will be used pre-post. Discussion: We will compare three groups (UPPER EXTREMITY EXCERCISE (UEx), LOWER EXTREMITY EXERCISE (LEx), CONTROL (CON)) with COPD using interventional exercises for upper and lower extremities randomly assigned to three groups on the dyspnea symptoms and quantify and grade them pre-post the intervention. We will also use the CAT questionnaire pre-post to measure the changes in symptoms and functions.
Phase 3 study to evaluate the efficacy and safety of a benralizumab in patients with moderate to very severe COPD with a history of frequent COPD exacerbations and elevated peripheral blood eosinophils (≥300/μL). Eligible patients must have a history of ≥2 moderate and/or severe COPD exacerbations in the previous year despite receiving triple (ICS/LABA/LAMA) background therapy for at least 3 months and ICS-based dual inhaled treatment for the remainder of the year. Eligible patients must also have an elevated blood eosinophil count. The treatment period will be of variable duration and will continue until the last patient has the opportunity to complete a minimum of 56 weeks, at which point all patients will complete the study. The primary endpoint will be analyzed at Week 56.
Researchers are trying to understand the effects of mesenchymal stem cells therapy in subjects with advance chronic obstructive pulmonary disease
The SIDERA^B telerehabilitation system is enabled by a multi-domain, multi-device platform providing at home multi-component rehabilitation, targeting cardiovascular (Chronic Heart Failure, CHF), pulmonary (Chronic Obstructive Pulmonary Disease, COPD) and neurodegenerative (Parkinson Disease, PD) chronic diseases. The rehabilitation program embeds engagement activities for patient and caregiver, to empower appropriation of the SIDERA^B care routines and fuel their well-being resources. The multidisciplinary layering of SIDERA^B is reflected in the validation protocol including a) clinical and well-being evaluation through a cross-over study confronting usual care with the SIDERA^B activities; b) technological evaluation: Health Technology Assessment for organizational, legal and equity impacts; c) economic evaluation: process mapping and budget impact analysis to define a sustainable reimbursement process for the innovative telerehabilitation pathway.
Pulmonary rehabilitation (PR) based on concentric exercise training has become an integral component in the treatment of patients with chronic obstructive pulmonary disease (COPD), improving functional capacities while diminishing symptoms and improving quality of life. However, the response to concentric exercise training is heterogeneous from one COPD patient to another. The inability of some COPD patients to achieve the exercise intensities required to stress limb muscles due to severe ventilatory limitation could partially explain their poor response to training. Endurance exercise with eccentric muscle contractions could be an interesting alternative to concentric exercise because it produces greater muscle force through its lower metabolic cost. Eccentric exercise could allow patients with severe airflow limitation to perform prolonged exercise sessions with sufficient intensity to improve muscle function. Nevertheless, a recent study performed in healthy young subjects reported that eccentric exercise induced a more hyperpneic breathing pattern (i.e., lower tidal volume and higher breathing frequency) that concentric for a given minute ventilation. The main objective of CONvEX study is to compare ventilatory adaptation between two modalities of exercise performed on cycle ergometer (concentric versus eccentric) in severe COPD patients.
A double-blind, randomised controlled trial in participants with COPD to assess the efficacy of proactive treatment of cardiac risk in people with COPD. We hypothesise that treating known and undiagnosed CVD in COPD participants will improve both cardiac and respiratory outcomes.
To evaluate the relationship between airway structure and function in patients with chronic bronchitis treated with metered cryospray (MCS).
Chronic Obstructive Pulmonary Disease (COPD) is the fourth most important cause of death worldwide and is one of the commonest non-communicable diseases (NCDs) in Nepal. The presence of risk factors like indoor and outdoor air pollution, the high prevalence of smoking and lack of general awareness of COPD makes it a serious public health concern. However, no attempt has been made in Nepal to estimate its burden and address the disease at the community level. This community-based cluster randomized controlled study aims to fulfil that gap through mobilization of Female Community Health Workers (FCHVs) who will be trained to perform a certain set of health promotion activities aimed at prevention of the disease and its progression. Baseline and follow-up surveys will be conducted to compare the intervention and control groups. This study has the potential to generate evidence in helping address NCDs in Nepal and also other similar resource-limited countries.
This randomized controlled pilot study involving patients with chronic obstructive pulmonary disease (COPD) recently discharged from the hospital will evaluate the feasibility and efficacy of a home-based mobile-health supported physical activity promotion program.
This study aims to i) assess the short-, mid- and long-term effectiveness of a patient-centred community-based pulmonary rehabilitation (PR) programme during during acute exacerbations of chronic obstructive pulmonary disease (AECOPD); ii) establish the minimal clinical important differences for PR in AECOPD for clinical and patient-reported outcome measures; and iii) evaluate patients' perspectives and self-reported impact of the PR programme. Patients with AECOPD will be recruited via clinicians at hospitals and primary care centres. Sociodemographic, anthropometric and clinical data; vital signs and peripheral oxygen saturation; symptoms (dyspnoea, fatigue, cough and sputum); lung function; physical activity level; peripheral muscle strength; functional status; exercise tolerance; impact of the disease and health-related quality of life will be collected within 24h-48h of the AECOPD diagnosis. Then, patients will be randomly allocated to either conventional treatment or conventional treatment plus PR. After 3 weeks, all outcome measures will be reassessed. Additionally, follow-ups at 2, 6 and 12 months will be performed through phone calls to assess the number of recurrent AECOPD, healthcare utilization and mortality. Conventional treatment will consist on daily medical treatment prescribed by the physician (i.e., medication). Community-based PR will involve 6 sessions (2 times per week) of breathing retraining and airway clearance techniques, exercises for thoracic mobility, expansion and flexibility, cardiorespiratory exercise training, education and psychosocial support. It is expected that, by including PR in the treatment of patients with AECOPD, they will express greater improvements in a shorter period of time and experience a decrease number of re-exacerbations and healthcare utilization.