View clinical trials related to Chronic Obstructive Pulmonary Disease.
Filter by:COPD is a condition which affects over 3 million people in the UK. It causes chronic symptoms including breathlessness and cough, limitations in exercise tolerance and acute exacerbations of COPD (AECOPD) which often lead to hospital admission. Current treatment for COPD includes inhaled medication and exercise programmes called Pulmonary Rehabilitation(PR) to improve exercise tolerance and resilience to AECOPD. Currently NHS respiratory services are struggling to provide support to patients with COPD, a recent-report highlighted that 75% of people with COPD are not receiving basic care. There is an increasing need therefore to improve the provision of PR and to support patients to self-manage their condition effectively, this requires new approaches and pathways of care. My mhealth Limited MMH is a UK based digital healthcare company established in 2011, specialising in the development of digital solutions for the management of long-term conditions. Evidence based, UKCA classified, and highly secure the company has developed a suite of solutions NHS approved and widely used, MHRA registered and is working towards NICE accreditation to manage patients with asthma, COPD, diabetes, and heart disease. myCOPD is a digital self-management application (app)therapeutic, developed by MMH, that supports all elements of managing COPD by creating a supported self-help environment, and in turn reduce medical visits, and hospital admissions and re-admissions. myCOPD allows for key aspects of disease management, such as PR, to be provided remotely, based on a person's self-assessment. Furthermore, it can help people with COPD manage their condition at home, or anywhere away from a clinical setting. Successful implementation of myCOPD provides an opportunity to build capacity in primary and secondary care, and community teams where a blended approach with traditional PR and myCOPD is used. Studies have shown myCOPD is able to deliver similar improvements in symptoms and exercise tolerance compared to PR exercise-classes and helps patients admitted to hospital recover more quickly at home. myCOPD is widely deployed across the NHS and is being used by patients in different areas of the UK- but to enable NICE approval and re-imbursement across all the NHS, evidence for the health-economic benefits of its use is required. With funding from SBRI Phase 3 grant, this project will explore the implementation of myCOPD by NHS respiratory services in two regions with diverse populations and challenges. In Bristol (Setting 1) the investigators will assess the value of using myCOPD in the COPD discharge care bundle for patients admitted to hospital with AECOPD, and its ability to help accelerate recovery, and prevent unscheduled care visits and re-admissions. Data collected from a pilot will be used to support the analysis. Whilst in Cornwall (Setting 2) the investigators will work with local services to provide 'digitally-supported PR' to isolated communities and increase the service capacity, completion rates and access to specialist support for self-management. A formal assessment will provide vital evidence for the value of myCOPD in the NHS and enable us to develop a business case for its national adoption and use, which will ultimately transform outcomes for people with this common and complex condition.
Chronic obstructive pulmonary disease(COPD) patients could benefit from pulmonary rehabilitation(PR) in better managing of the disease and its symptoms and in avoiding future relapses and hospitalizations. However, due to a large number of drop outs from PR, lack of professionals, and the COVID-19 epidemic, the PR has been underutilized, leading to a need for investigation of updated forms. Music therapy, such as rhythm-guided endurance training, singing training, listening to melody, may be one such potential relevant and motivating rehabilitation activity. The study aims to investigate the effects of home-based PR program with a rhythm-guided endurance walking exercise and singing training on both physiological and psychological aspects. Effects will be investigated in a randomized controlled trial (RCT) with 12-week intervention period.
Assess the usability and acceptance of the P-STEP app, through allowing participants with specific chronic conditions to pilot the app for 12-weeks.
The goal of this clinical trial is to compare the new asymmetric nasal high flow interface with the conventional high flow nasal cannula in patients with COPD exacerbation. The main questions the study aims to answer are: • Does the use of the asymmetric interface lead to: 1. A greater decrease in the patients' carbon dioxide 2. A greater decrease in respiratory rate and less dyspnea 3. Less need for advanced oxygen therapy measures 4. Same tolerance and comfort 5. Lower heart rate and blood pressure Participants will be asked to: Wear the asymmetric and conventional cannulas for 3 hours each with a 30 minute gap in-between. Arterial blood samples and various clinical parameters will be collected throughout the study period. Researchers will compare the effect of asymmetric versus conventional cannulas to answer the aforementioned questions.
Participants with respiratory disease experience often a worsening of their condition, with increasing symptoms such as cough and shortness of breath. This worsening, often called exacerbation or flare up, impacts on the life of the participants, since they become limited in their daily activities. Healthcare is still based today on limited times for clinical appointments to perform investigations and to meet with specialists/clinicians. Very often, these evaluations do not reflect the way the disease is limiting the patient's life. Wearable devices offer the opportunity to collect data on physical activities and important clinical parameters (such as how the patient is active or just staying in bed during the day), on a daily basis. The HG Phoenix AI- based Smart Watch produced by Health Gauge, an Albertan company based in Edmonton, has the potential to measure heart rate, heart rate variability, blood pressure, pulse wave velocity, respiratory rate, temperature, arterial saturation, sleep pattern (deep, light sleep, awake time), duration and time, daily physical activities (site count and distance) and calories burnt in a simple and non-invasive fashion. Ideally, these parameters could be monitored and recorded 24 hours per 7 days per week. This study aims to demonstrate that this device can be used for a long time at home and it is comfortable to use for the participants, that it is not dangerous and, possibly, that it can help to identify exacerbations before the currently available investigations.
The database will contain a wide range of demographic, clinical, radiological, laboratory, functional, microbiological, treatment, and clinical outcomes data on adults with chronic obstructive pulmonary disease (COPD) and asthma enrolled during stable state with annual follow-up (either one or two-year follow up). Primary Objective: To collect clinical (including quality of life measurements), laboratory (including non-invasive measurement of biomarkers), microbiological, radiological, functional, treatment variables and clinical outcomes, in adult patients with either asthma or COPD during stable state. Secondary Objectives: To identify genetic and other omics patterns to develop phenotype handprints for adults with either asthma or COPD. To characterize the airways microbiome in stable patients with either asthma or COPD and identify correlation with clinical phenotypes and/or endotypes.
A problem often observed during exercise training is oxygen desaturation exclusively during exercise in some patients. In the case of exercise-induced desaturation, it may be suggested to train these patients in interval training to limit exercise-induced desaturation. Interval training consists of alternating active phases of short duration (often 30 seconds to 1 minute) followed by a short active or passive recovery phase of equivalent duration to the previous phase. Investigators therefore hypothesise that interval training on a cycloergometer or treadmill can limit exercise-induced desaturation in COPD patients. The aim of the study is to observe the evolution of pulsed oxygen saturation between a continuous training session and a interval training session.
The goal of this clinical trial is to evaluate whether voice or capnometry, alone or in combination with other (non invasive) biomarkers can be used to detect emphysema on chest CT-scan in people with chronic obstructive pulmonary disease (COPD). The main question it aims to answer is: • Can a machine-learning based algorithm be developed that can classify the extent of emphysema on chest CT scan from patients with COPD, based on voice and/or capnometry. Participants will: - perform different voice-related tasks - perform capnometry twice (before/after exercise) - perform a light exercise task between tasks ( 5-sit-to-stand test) - undergo one venipuncture
This research study is being conducted to evaluate the feasibility of using technology to deliver a remote home exercise program and assess the health outcomes of patients with chronic lung diseases. Specific objectives are to assess the interventions on patients: 1) Lung function, 2) Dyspnea, 3) Fatigue, 4) Exercise capacity, 5) Self-efficacy, and 6) Health-related quality of life. The investigators will also be evaluating the practicality of using videoconferencing and commercial wearable telemonitoring devices (ie. smart watches) for the implementation of the intervention in this group of patients.
The goal of this observational study is to describe the impacts of COVID-19 on primary care chronic condition management in Canada within various patient populations. This will be done by analyzing primary care electronic medial record (EMR) data from the Canadian Primary Care Sentinel Surveillance Network (CPCSSN) database, including data on primary care encounters, as well as various markers for chronic conditions. The research questions to be investigated are: 1a) What are the changes to the management of chronic conditions in primary care since the onset of the COVID-19 pandemic? 1b) How do these changes differ by age, health status, and socioeconomic status?