View clinical trials related to Lung Diseases, Obstructive.
Filter by:Background: Informative and supportive nursing care is essential to reduce complications and improve outcomes in Chronic Obstructive Pulmonary Disease (COPD) patients treated with Non-Invasive Ventilation (NIV). Objective: Aim of the study is to determine the effect of provision of information and supportive nursing care on blood gas, vital signs, anxiety, stress and agitation levels in COPD patients treated with NIV. Research Methodology: A randomised controlled design was used between September-December 2019. The universe of the study consisted of COPD patients treated with NIV in intensive care unit in a state hospital. A total of 60 patients, composed of 30 interventions and 30 controls, were randomly included in the sample. Provision of information and supportive nursing care was applied to the patients in the intervention group. The data were evaluated with SPSS program. Results: Following the intervention, the findings showed that the provision of information and supportive nursing care has a positive effect on the blood gas, vital signs, anxiety, stress and agitation levels of patients. Conclusions: The provision of information and supportive nursing care is recommended to alleviate anxiety, stress and agitation in COPD patients treated with NIV
Chronic obstructive pulmonary disease (COPD) is a common disease that endangers people's health, causing severe economic and treatment burdens. Sleep breathing disease, as a complication of COPD, increases the hospitalization rate and mortality of COPD. At present, community doctors have insufficient knowledge of COPD and its complications, and they also lack standardized screening and related disease management capabilities. This trail intends to use IoT medical technology to screen for COPD combined with sleep breathing diseases. It can establish a two-way referral channel between primary community hospitals and higher-level hospitals, which provides early warning services for COPD combined with sleep breathing diseases. This trial explores the impact of sleep breathing disease on COPD's acute exacerbation, which improves the understanding of COPD patients combined with sleep breathing diseases. It also improves COPD management and its complications control at the community-level and reduces COPD patients' potential risks and treatment burdens. It also explores tiered diagnosis and treatment models for COPD, promotes the construction of intelligent IoT infrastructure, and enhances standardized diagnosis and treatment of COPD at the grassroots level in China.
The morbidity rate of Chronic Obstructive Pulmonary Disease (COPD) is increasing year by year. It is predicted to be the third leading cause of death worldwide in 2030. People with COPD have a high risk of needing a ventilator due to the decline of lung function, the increase of secretions, the dysfunction of airway clearance, and the obstruction and loss of alveolar elasticity.
In this project, Institute of Bioengineering & Bioimaging (IBB), A*STAR would like to collaborate with Massachusetts General Hospital to aggregate patient data and to further develop its software algorithm using machine learning and statistical models for predicting exacerbations and deterioration on 60 patients with cardiopulmonary diseases.
It is an observational study in patients with chronic noncommunicable diseases (i.e. cardiovascular diseases, diabetes mellitus, non-alcoholic fatty liver disease, chronic obstructive pulmonary disease and asthma ) and control group with no signs of these conditions. The study has a prospective part planned for 2021 and a retrospective part which includes the patients enrolled between 2018-2020. The aim of the study is to investigate gut microbiota composition, its metabolites, levels of inflammatory and other markers of the disease in prospective groups (arterial hypertension, type 2 diabetes mellitus, chronic obstructive pulmonary disease, asthma, non-alcoholic fatty liver disease and control patients) as well as in retrospective groups (chronic heart failure with preserved and reduced ejection fraction, obstructive atherosclerosis of any vascular bed, arterial hypertension, type 2 diabetes mellitus, chronic obstructive pulmonary disease, asthma, non-alcoholic fatty liver disease, and control patients). Also we are planning to investigate the association between gut microbiota composition and its metabolites, levels of inflammatory and other markers of the disease in retrospective and prospective groups.
Objectives The objective of this project is to motivate patients with COPD to incorporate the habit of doing daily mindful physical activity by using the proposed home-based pulmonary rehabilitation program that integrates video guided exercises, activity monitoring daily steps and health coaching. This program will allow patients to complete Pulmonary Rehabilitation (PR) at home and promote behavior change and lead to a more active lifestyle for patients with COPD who have been prescribed PR. The program will be able to effectively monitor daily step count. A health coach will receive more this detailed data and will guide weekly health coaching sessions designed to increase awareness of the physical activities completed and ignite inner motivation for healthy behaviors. The proposed PR program is innovative and responds to an unmet need in chronic care for COPD patients in the context of COVID-19 pandemic and it mitigates the common accessibility barriers.
Chronic obstructive pulmonary disease (COPD) is a public health issue due to its prevalence of 8% in the general population (although it is underestimated), particularly due to the number of severe patients suffering from chronic respiratory failure and the number of hospitalizations estimated at 100,000 each year. Total health insurance expenditure in 2017 for chronic respiratory diseases (excluding cystic fibrosis and cancers) was approximately €3.5 billion, including €1 billion for hospitalizations. Hospitalizations are mainly related to a worsening of the disease (severe exacerbations mainly of viral and/or bacterial origin). Although the majority of exacerbations are treated on an outpatient basis with antibiotics and/or oral corticosteroids, those occurring in the most severe and often the oldest patients may require hospitalization. It should be noted that almost one out of two patients hospitalized for COPD exacerbation is re-hospitalized within six months; on the other hand, age and length of stay are the two main factors of mortality in the year following hospitalization for COPD in the Intensive Care Unit. Early detection of a worsening of the health status related to COPD could allow appropriate management and avoid at least part of the hospitalizations for exacerbation with a consequent reduction of the associated morbi-mortality. The objective of this clinical study is to determine the evolution of the profile of volatile organic compounds (VOCs) present in the exhaled air (volatolom) in patients with severe COPD after hospitalization for exacerbation. This step should allow the identification of VOCs (modification of the volatolom) which would be associated with a severe COPD exacerbation, by comparing the volatolom at the acute phase of the exacerbation to the volatoloms during the progressive return to a stable state after hospitalization and to those of patients with a stabilized severe COPD (VOC-BPCO clinical study also sponsored by Foch Hospital)
It has been demonstrated that consequences of malnutrition affect a situation of risk and have negative effects on the evolution of chronic obstructive pulmonary disease (COPD), accompanied by higher morbidity and mortality. The impact of malnutrition on the respiratory system affects the respiratory muscles, the lung parenchyma, and the immune system. In summary, the risk of complications can lead to a worsening of the quality of life of the COPD patient. Also, dyspnea as the main symptom of COPD is the one that produces the greatest loss of quality of life, especially in older patients. The components of our authorized food supplement improve the quality of life of the patient. These components maintain the strength and energy of the patient, help the body to recover and regain its optimal state, help improve the immune system, help reduce the side effects of therapies associated with the control or cure of cancer and help correct nutritional deficiencies. This is the reason why this experimental study aims to improve the quality of life in patients with COPD with a CAT score>15.
Exacerbations, in particular during chronic Pseudomonas aeruginosa (PA) infection, are very important in the prognosis of patients with non-cystic fibrosis bronchiectasis (BE). In Cystic Fibrosis patients, PA biofilms are associated with chronic respiratory infections and are the primary cause of their increased morbidity and mortality. However, the presence and role in exacerbations of PA biofilms, microbiome dysbiosis and inflammatory biomarkers has not been studied in depth in BE patients. Our aim is to determine the association between PA chronic infection and its biofilms with the number of exacerbations in the next year (primary outcome), time until next exacerbation, quality of life, FEV1 and inflammatory biomarkers (secondary outcomes) in BE patients with or without chronic obstructive pulmonary disease (COPD). The investigators will include and follow up during 12 months post study inclusion, 48 patients with BE and 48 with BE-COPD, with a positive sputum culture of PA. During stability and follow up (and in each exacerbation) The investigators will collect 4 sputum, 4 serum samples, perform spirometry, and quality of life tests every three months. For the biomarkers subproject, 4 additional serum samples will be collected at: exacerbation, 3-5 days after treatment, at 30 days and three months post-exacerbation. Biomarkers will be measured by commercial kits and Luminex. The investigators will quantify PA colony forming units (CFU)/mL, their resistance pattern, their mutation frequency and isolate mucoid and non-mucoid colonies. In each sputum, the investigators will analyze by Confocal Laser Scanning Microscopy (CLSM) and Fluorescent in situ Hybridizatrion (FISH) PA biofilms, their size, bacterial density and their in situ growth rate. Specific serum antibodies against PA will be determined through Crossed Immunoelectrophoresis. In addition, the investigators will indentify potential respiratory microbiome and gene expression patterns predictive for exacerbations, or with a protective role against chronic PA infection, as well as their association with biofilms. Microbiome analysis will be performed through the Illumina Miseq platform. Finally, the investigators will explore the antimicrobial activity of novel combinations of antibiotics against PA, both in in vitro planktonic cultures and in a biofilm model, and will include testing of antibiotic-containing alginate nanoparticles.
Some patients living with multiple long-term health conditions have difficulty accessing the services they need, despite available primary care and community resources. Patient navigation programs may help those with complex health conditions to improve their care and outcomes. Community health navigators (CHNs) are community members who help guide patients through the health care system. CHNs are not health professionals like a doctor or nurse, but they are specially trained to help patients get the most out of their health care and connect them to resources. The ENCOMPASS program of research evaluates a patient navigation program that connects patients living with long-term health conditions to CHNs. To understand if the CHN program can be scaled to a provincial level, the ENCOMPASS program of research is expanding to select primary care settings across Alberta. This study implements and evaluates the CHN program at WestView Primary Care Network in the Greater Edmonton area, Alberta, Canada.