View clinical trials related to Chronic Obstructive Pulmonary Disease.
Filter by:Patients with chronic obstructive lung disease (COPD) suffer from a progressive loss of lung function that leads to poor quality of life, and often invalidity and early death. Regular exercise can improve quality of life in these patients, but the health care system lack the underlying mechanism of exercise-induced improvement in COPD and it is widely thought not to have any effect on lung function. The aim of the present study is to investigate to which extent lung tissue mass and rest-to-exercise diffusion capacity changes differ in COPD patients compared to the healthy state. In order to design prospective clinical trials on the putative impact of high-intensity interval training (HIIT) investigating these parameters, and a secondary aim is to assess the feasibility of such a study in terms of patient inclusion, adherence and methodology.
Chronic obstructive pulmonary disease (COPD) is one of the most common respiratory diseases. Early detection and treatment are critical to prevent the deterioration of COPD. In this study, investigators aim to develop an algorithm that can detect and infer the severity level of COPD from physiological parameters and audio data which are collected by a wearable device. Investigators will complete the study in two stages: stage 1. A panel study to assess the ability to infer the severity of COPD by intelligent terminal devices; stage 2. Establish an algorithm that can detect and infer the severity level of COPD by intelligent terminal devices.
Chronic Obstructive Pulmonary Disease (COPD) is a common preventable and treatable respiratory condition. Its main symptoms include, breathlessness, cough and frequent chest infections. Many people with COPD struggle with excessive production of sputum, resulting in more hospital admissions and worse symptoms affecting quality of life. Guidelines suggest techniques to help clear sputum but there is not strong evidence behind these. In particular we don't know how effective cough clearance techniques are and indeed if any are better than others. This study will recruit people admitted to hospital with an exacerbation of COPD who have excessive sputum and randomise them to receive a hand-held airways clearance device or chest physiotherapy exercises. We will compare symptoms, quality of life, treatment burden and hospital admissions over the following year.
In Canada, 3 out of 4 Canadians aged 65 and older have at least one chronic condition, while 1 in 4 seniors reported having three or more. Caring for complex patients who usually have multiple chronic conditions (MCC) is one of the biggest challenges facing our healthcare system. For patients, the lack of coordination and continuity of care as they transfer between healthcare settings and healthcare providers (HCPs) often results in a higher risk of readmission, suboptimal and fragmented care plans, delays in required medical intervention, inadequate self-care, and confusion on whom they should contact when they have questions. For the patient's care team, they often have no indication how patients are doing between clinic visits unless the patient can provide a log of their home measurements (e.g., blood pressure). Therefore, they are unable to detect and intervene if their patient's health is worsening between visits. In order to address this increasing need to bridge the current gap in clinical management and self-care of complex patients during their transition from healthcare settings to home care, our team aims to design, implement and evaluate the SMaRT (Safe, Managed, and Responsive Transitions) Clinic, a nurse-led integrated care model facilitated by telemonitoring (TM). Specifically, the SMaRT Clinics aim to meaningfully introduce a nurse (or nurse practitioner) role to improve clinical coordination across patient care teams and reinforce proper self-care education through the use of telemonitoring. This project will be conducted in two phases across four years; Phase I: Design and Development, and Phase II: Implementation and Effectiveness Evaluation. Phase II research activities include enrolling 350 patients with complex chronic conditions in the SMaRT clinics across four study sites. The implementation and effectiveness of the SMaRT clinics will be evaluated through a mix of semi-structured interviews, ethnographic observation, patient questionnaires, and analyses of health utilization outcomes using propensity-matched controls from the ICES provincial database.
Episodic and disjointed medical care for older, community-dwelling adults with chronic obstructive pulmonary disease (COPD) and congestive heart failure (CHF) leave them vulnerable to adverse events such as worsening disease trajectories, frequent emergency department (ED) utilization, and avoidable hospital admissions. It is imperative that an alternative means of health delivery be developed, establishing a coordinated, flexible care model to connect patients with the appropriate resources to address their acute needs and integrate with their medical homes to navigate fraught moments in their disease management. The Mobile integrated health (MIH) care delivery model may offer a solution by providing flexible and innovative on-demand care in the comfort of patients' homes. The MIH paradigm expands the use of highly trained paramedics outside of their traditional EMS role, by dispatching them into the community to perform in-home medical evaluations and treatment(s) in consultation with an actively involved, remotely located, supervising physician. These "community paramedics" evaluate patients and render care using mobile diagnostics and a variety of medications, allowing patients to remain in place until they can be evaluated definitively on an ambulatory basis. Utilizing a model of on-demand community paramedic visits paired with a telehealth consultation with a physician, this intervention will manage patients in place until they can access planned ambulatory follow up, decreasing the use of prehospital emergency transport services, emergency department utilizations, and hospital admissions as well as limiting transitions of care and allowing ambulatory providers to maintain longitudinal oversight of disease management The objective of this project is to study the feasibility of the refined MIH model for the care of community dwelling patients with congestive heart failure and chronic obstructive pulmonary disease. Investigators will conduct a small pre/post pilot intervention trial enrolling 50 patients into a pilot MIH program. Primary outcomes will include participant satisfaction, patient activation, and subject retention. Investigators will also collect outcomes data including ED visits, hospitalizations, and hospital lengths of stay.
The aim of this study is to examine the effectiveness of inspiratory muscle training (IMT) before bronchoscopic procedure in Chronic Obstructive Pulmonary Patients (COPD). Patients with a diagnosis of COPD, who are listed for a bronchoscopic procedure and referred to the pulmonary rehabilitation (PR) clinic, will be randomly divided into two groups. Standard PR exercise program will be applied to both groups. In addition to the standard program, IMT will be applied to one of the groups. The effect of IMT on exercise program gains will be examined.
Chronic Obstructive Pulmonary Disease (COPD) is a respiratory condition that results in a mixture of small airway disease and parenchymal destruction, changes that are characteristic of emphysema. COPD is also characterized by persistent airflow limitation, an aspect which is noted to be a major cause of morbidity and disease burden worldwide. One in every 8 patients who suffer an exacerbation requires to be admitted to the hospital. Due to repercussions that arise both because of the systemic effects of COPD and also the aggravating factors due to the exacerbation, new adjuncts to treatment are being researched. NMES is a non-invasive and non-addictive means of muscle contraction and was introduced as a rehabilitation means post muscle injury, surgery, and eventually in certain diseases and its use in the treatment of patients with COPD is being looked into. This research study shall adopt a quantitative approach. A Randomised Control Trial (RCT) shall be used to investigate the effect of Neuromuscular Electrical Nerve Stimulation on quadriceps muscle strength and endurance. Approximately 103 patients shall be randomly enrolled in the control group and the experimental group. The control group shall receive Physiotherapy as already provided by physiotherapists including chest and mobility exercises. The experimental group shall undergo Physiotherapy with the addition of NMES. To assess the effect of NMES on quadriceps strength and endurance, quadriceps strength shall be tested through the use of a hand-held dynamometer. Endurance shall be tested through a quadriceps endurance test which requires the leg to be extended against a weight corresponding to 70% of the 1 repetition maximum with a pace of 12 movements per minute, a test which will be stopped when the patient can no longer perform the movement despite strong verbal prompting and encouragement and the standardised 1-minute sit-to-stand. All tests are to be conducted before the intervention, hence on admission to the local general hospital and prior discharge to a maximum of 30 days from the date of admission. All tests shall be done in the patients' ward setting. Also, a diagnostic ultrasound scan of this group of muscles shall be performed upon admission and before discharge by a consultant radiologist at the radiology department. The Borg scale shall be used to assess the shortness of breath of the patients following the 1-minute sit-to-stand.
Chronic obstructive pulmonary disease (COPD)is a multifactorial, progressive chronic lung disease that causes airflow restriction. Study was conducted To Compare the effects of supervised and self-directed pulmonary rehabilitation on cough and sputum expectoration in patients of chronic obstructive pulmonary disease.
The literature on the physiological response (vasodilation, neuromuscular fatigue, and muscle oxygenation) following the application of different dosages of oxygen therapy in patients with Chronic Respiratory Failure (CRF) and Long-Term Oxygen Therapy (LTOT) during exercise is scant. The evaluation of these aspects can allow the clinicians and the rehabilitation staff to correctly dose the oxygen therapy at rest and during exercise and to reach a higher level of improvement after training. For this purpose, we will recruit 20 patients admitted to the Pulmonary Unit of the ICS Maugeri in Lumezzane (BS) with the presence of CRF defined as PaO2 at room air less than 60 mmHg, the need for LTOT since 3 months, and with a stable clinical condition. This is a crossover study and will last 3 days. We will test the same subject, randomly, in the following three conditions: A) CONDITION ROOM AIR: patient will breathe room air through the Venturi mask (Vmask FiO2 21%) and will be considered as "sham condition" B) CONDITION FiO2 30%: the subject will breathe through a Venturi mask with a FiO2 of 30%. C) CONDITION FiO2 60%: the subject will breathe through a Venturi mask with a FiO2 of 60%. During each condition, we will evaluate: a) oxygen saturation (SatO2), transcutaneous paCO2 value (tcCO2), BORG fatigue and dyspnea, blood gas analysis; b) mitochondrial function through the Near Infra-Red Spectroscopy and c) vascular function by Single Passive Leg Movement (sPLM) technique; d) central and peripheral neuromuscular fatigue after a submaximal intermittent isometric contraction. The present project will help to understand the best doses of oxygen therapy to allow patients to achieve a higher level of vasodilation and mitochondrial function and a lower level of neuromuscular fatigue. We could apply these results to the rehabilitation program in order to get a greater level of improvement in exercise tolerance.
High-flow nasal cannula (HFNC) therapy is increasingly used in the management of acute respiratory failure. Its clinical application has been expanded also in other specific settings In stable COPD patients and in those recovering from acute exacerbation, HFNC can reduce PaCO2, respiratory rate, minute ventilation and respiratory effort. The aim of this randomized crossover physiological study is to investigate the effects on PaCO2 levels of two different nasal cannula ('Optiflow + Duet' interface vs "standard" nasal interface) in COPD patients with persistent hypercapnia following an acute severe exacerbation