View clinical trials related to Chronic Obstructive Pulmonary Disease.
Filter by:To improve the safety of diagnosis and therapy for a set of conditions and undifferentiated symptoms for hospitalized patients, the investigators will employ a set of methods and tools from the disciplines of systems engineering, human factors, quality improvement,and data analytics to thoroughly analyze the problem, design and develop potential solutions that leverage existing current technological infrastructure, and implement and evaluate the final interventions. The investigators will engage the interdisciplinary care team and patient (or their caregivers) to ensure treatment trajectories match the anticipated course for working diagnoses (or symptoms), and whether they are in line with patient and clinician expectations. The investigators will use an Interrupted time series (ITS) design to assess impact on diagnostic errors that lead to patient harm. The investigators will perform quantitative and qualitative evaluations using implementation science principles to understand if the interventions worked, and why or why not.
Chronic obstructive pulmonary disease (COPD) is a significant current public health problem, characterized by the presence of limited airflow. However, COPD has important manifestations beyond the lungs, the so-called systemic effects. These included dysfunction of peripheral and respiratory muscles. The growing amount of evidence has shown that patients with COPD also present important deficits in postural balance and consequently, increased risk of falling. As an essential part of the management of COPD, pulmonary rehabilitation (PR) alleviates dyspnea and fatigue, improves exercise tolerance and health-related quality of life, and reduces hospital admissions and mortality for COPD patients. Exercise is the key component of PR, which is composed of exercise assessment and training therapy. Currently, two modalities of therapy have been suggested as complementary to pulmonary rehabilitation: inspiratory muscular training (IMT) and neuromuscular electrical stimulation (NMES). Based on the premise that peripheral and respiratory muscle dysfunction can negatively impact postural control of patients with COPD, and given the importance of balance as a modifiable risk factor for falls, it is important to investigate whether the use of these therapeutic modalities (IMT and/or NMES) is capable of improving the short-term effects of pulmonary rehabilitation and also promoting improved balance.
The aim of this study is to investigate the feasibility of administering this combination of interventions (CMT plus PR) to Veterans with moderate COPD within the context of a hospital-based outpatient pulmonary rehabilitation program.
Chronic obstructive pulmonary disease (COPD) is a worldwide prevalent disease. During recent years, increasing attention has been directed to the importance of the contribution of small airways in respiratory diseases. The small airways (usually defined as those with an internal diameter of <2 mm) are recognized as the major site of resistance to airflow in obstructive lung disease. Although small airway disease is known in chronic airway diseases, the importance of small airway dysfunction on disease control, exacerbations and quality of life, and the importance of taking place among treatable targets is not clear. Therefore, our aim in the study is to determine the frequency of small airway dysfunction in COPD. Our secondary aim is to evaluate the role of small airway dysfunction in disease severity, disease phenotypes, disease control, quality of life and its effect on predicting the risk of exacerbation and its role among treatable targets in chronic airway diseases.
COPD patients will be examined in 4 groups according to their walking distance. Patients walking under 150 meters will be determined as Group 1, those walking between 150-249 meters will be Group 2, those walking between 250-349 meters will be selected as Group 3, and patients with COPD who walk 350 and above will be determined as Group 4. The groups were compared in terms of quality of life, psychological symptoms and dyspnea.
Chronic Obstructive Pulmonary Disease (COPD) is associated with high morbidity and mortality. The Danish Lung Association estimates that 320,000 Danes live with COPD, of which approximately 50,000 with severe COPD. In 2017, records showed that 23,979 admissions in Denmark were related to COPD; of these patients, about 20% were readmitted 2-30 days after discharge. The main symptom is dyspnea, which is often accompanied by anxiety. Primary treatment is; oxygen, bronchiolitis, prednisolone, morfin, NIV, and anxiolytics. Researchers at Hvidovre Hospital have developed an oxygen robot that continuously monitors the patient's SaO2 (oxygen saturation) and automatically administrates the oxygen depending on it. The preliminary results show that patients with robot-administrated oxygen were within defined SaO2 range in 85.7% of the time versus 46.6% when oxygen was nurse-administrated. The research was conducted as a multicentre Randomized Controlled Trial (RCT)focusing on physiological end-points. There is a lack of knowledge about the patient perspective of treatment with the oxygen robot. The purpose of this study is: 1. To examine the association between robot-administered oxygen and patients' perception of dyspnoea, including the emotional response in the form of anxiety and depression The perspective is to be able to provide a holistic response to whether robot administered oxygen can be a better method of treating and alleviating dyspnoea.
Chronic illness is a public health issue and mobility loss is frequent in this population. Among its' multiple physical and psychological consequences, increased mortality and cardiovascular morbidity seem the main concern. Therefore, the exploration of locomotor deficiencies, physical capacities and metabolism of patients with chronic illnesses constitutes a major challenge both for the treatment of causal pathologies, as well as for evaluating the impact of therapeutic interventions, the benefit of which will be an improvement in physical capacities and ultimately mobility. In view of the hypothesis of an increase in the prevalence of mobility disorders in this population, this approach is part of a logic of screening and improving the effectiveness of the care of these patients with a multidisciplinary evaluation of individual risks. The EVALMOB protocol was designed in order to try to determine a standard profile of "dysmobility" in patients with chronic illness
The investigators aim to investigate the effects of a telemonitoring and chatbot-based application of "Living well with COPD" (CAir) on health-related quality-of-life in patients with COPD.
Chronic Obstructive Pulmonary Disease (COPD) is associated with high morbidity and mortality. The Danish Lung Association estimates that 320,000 Danes live with COPD, of which approximately 50,000 with severe COPD. In 2017, records showed that 23,979 admissions in Denmark were related to COPD; of these patients, about 20% were readmitted 2-30 days after discharge. The main symptom is dyspnea, which is often accompanied by anxiety. Primary treatment is; oxygen, bronchiolitis, prednisolone, morfica, NIV, and anxiolytics. Researchers at Hvidovre Hospital have developed an oxygen robot that continuously monitors the patient's SaO2 (oxygen saturation) and automatically administrates the oxygen depending on it. The preliminary results show that patients with robot-administrated oxygen were within defined SaO2 range in 85.7% of the time versus 46.6% when oxygen was nurse-administrated. The research was conducted as a multicentre Randomized Controlled Trial focusing on physiological end-points. There is a lack of knowledge about the patient perspective of treatment with the oxygen robot. The purpose of this study is: 1. To examine the effect of robot-administered oxygen on patients' perception of dyspnoea, including the emotional response in the form of anxiety and depression The perspective is to be able to provide a holistic response to whether robot-administered oxygen can be a better method of treating and alleviating dyspnoea.
In patients with chronic illness, screening for falls and their health consequences are major public health issues. Muscle weakness, gait and balance disorders are among the most common risk factors for falling. Assessing these parameters would thus be a crucial step in the evaluation of the risk of falling, allowing to more precisely orient the management strategy. Combining inertial unit sensors with clinically validated tests can provide additional information to improve the assessment of fall risks. We therefore propose to constitute a monocentric exploratory study, testing a prognostic screening tool, in patients suffering from a chronic pathology, in order to assess the risk of falling in this population. Considering the relationship between muscle weakness and the risk of falling, we can assume that a deficit in muscle strength will result in less vertical acceleration which could point to a muscle cause of the balance disorder and thus allow a finer detection of the risk of falling. On the other hand, we hypothesize that spinal static disorders in chronic pathologies and in particular osteoarthritis, as well as balance disorders linked to impaired deep sensitivity lead to an increase in oscillations of the trunk when walking which can cause postural balance disorders thus increasing the risk of falling.