View clinical trials related to COPD Exacerbation.
Filter by:Chronic obstructive pulmonary disease (COPD) is more prevalent and has more impact on health status because of progressive air pollution, tobacco smoking and aging society. The COPD prevalence investigation in 2013 by phone call showed at least 6% of the population with more than 40 years-old in Taiwan. It also was the 7th ranking of death causes in Taiwan then. Apart from chronic inflammation in lung and deteriorated lung function, it had extrapulmonary complications, such as cardiovascular problems, osteoporosis and muscle wasting. The concept of sarcopenia was proposed at first in 1989. It increases the risk of falls, disability and lowering life quality. Besides, it increased the mortality risk after admission from acute ward. Thereafter, sarcopenia is one of COPD co-morbidities, which should have great impacts of COPD. The studies showed sarcopenia reduced exercise capacities and worsening dyspnea scores. On the other hand, COPD exacerbation brings significant health burden. But there is limited data about the effect on sarcopenia on COPD exacerbation. We conducted a prospective observational study. We measured skeletal muscle mass and the strength of the used hand grip within 3 days of admission and before discharge. Mortality and exacerbation in one year are the primary end-points
Using weight training with virtual reality can help after discharge patients of acute exacerbation of chronic obstructive pulmonary disease, which maintained their quality of life, and improved their exercise capacity, pulmonary function, readmission condition.
Introduction: Chronic Obstructive Pulmonary Disease (COPD) disease highest mortality and morbidity of respiratory diseases that third cause of death in the world and Turkey. Purpose: Purpose of study improve self-efficacy, anxiety/depression, symptom control and exercise capacity, reduce use of health care of COPD patients. Method: The study was conducted with a randomized controlled design. This study were included 41 COPD patients (İntervention=20, Control=21). Data collection tools were patient description form, COPD Self-Efficacy Scale (CSES), COPD Assessment Test (CAT), Hospital Anxiety Depression Scale (HAD), 6-Minute Walk Test (MWT) and tele-health form. Intervention consists patient education, training booklet and 3 month follow-up. Control group patients received only general care. The final test was performed three months later.
To evaluate the efficacy of blood-eosinophil directed corticosteroid therapy using near-patient testing, compared to current standard practice during an exacerbation of COPD in a multi-centre randomised placebo controlled trial.
Smoking related lung disease or Chronic Obstructive Pulmonary Disease (COPD) is characterised by periods of worsening symptoms termed exacerbations. In some patients these may be severe enough to require hospitalisation and support for their breathing. Patients who suffer a severe exacerbation requiring breathing support using mask ventilation (also termed non-invasive ventilation, NIV) have a high chance of being readmitted to hospital in the following 12 months. Recent evidence suggests that the provision of a breathing machine at home (home mechanical ventilation, HMV) may reduce the risk of readmission to hospital in selected patients. Morbidity and mortality in the 12 months following a life-threatening exacerbation of COPD remain high. Recent data from the Lane Fox Clinical Respiratory Physiology Research Centre supports the addition of home non-invasive ventilation to standard care to improve admission-free survival in patients with persistent hypercapnia following a decompensated exacerbation of COPD. The study is designed to evaluate the clinical implementation of the delivery of home non-invasive ventilation in COPD patients with persistent hypercapnia following an acute exacerbation of COPD to validate that the clinical benefit derived from the HOT-HMV trial is maintained when the home non-invasive ventilation is implemented into routine clinical practice.
COPD; it is a common, preventable and treatable disease that is associated with increased chronic inflammatory responses in the airways and lungs against harmful gases and particles, and that it manages progressive airflow. The definition of exacerbation is defined as an acute onset with a change in where daily differences in the main symptoms occur and which may occur with the presence of drugs. The number of exacerbations in the course of the disease is between 1-3 years on average. Routine physiotherapy treatment in COPD exacerbation is expected to increase lung volume and effective removal of airway secretions. The concept of physiotherapy programs is vibration, thoracic expression exercise, positive expiratory pressure therapy and gait programs. An incentive spirometer is a simple, inexpensive device to adjust lung tissue re-expansion by increasing lung volumes and diaphragmatic mobility, providing maximal inspiration with termination control without a resistive loading. In COPD patients, the use of incentive spirometry is to increase alveolar ventilation and oxygenation in lifestyle. There are a limited number of studies in the literature regarding the results of the use of incentive spirometry in COPD patients. The results of postoperative results of incentive spirometry in COPD patients were tried and established on pulmonary complications, diseases, postoperative dyspnea perception and lifestyle. The importance of the investigator's research; this is the first study to evaluate hemodynamic responses and hospitalization plans of incentive spirometer and routine physiotherapy program in COPD exacerbations.
This study examines the effects of the work of an outgoing lung team in the Municipality of Aarhus, Denmark to patients with COPD (Chronic obstructive pulmonary disease) at risk of exacerbation of COPD. The outgoing lung team is a cross-sectorial team of nurses and doctors from Department of Respiratory Diseases and Allergy at Aarhus University Hospital and nurses from the Acute Team in the Municipality of Aarhus. The work of the outgoing lung team takes place in the patient's home and involves the following: - The outgoing lung team teaches the patients, relatives and primary care staff about symptoms, treatments and instructions related to COPD. - The patients, relatives and primary care staff can contact the outgoing lung team by telephone day and night. - The outgoing lung team initiates appropriate treatment by telephone or a home visit in consultation with a doctor. - The patients report symptoms and measurements to the outgoing lung team using telemedicine solutions (AmbuFlex). - The outgoing lung team initiates acute consultations at Department of Respiratory Diseases and Allergy based on patient reported outcomes, home visit or telephone call. Half of the participants are affiliated to the outgoing lung team, while the other half are not, and continue their usual practice by contacting the general practitioners in case of exacerbation of COPD. The main hypothesis of the project is that outgoing lung team has a positive impact on continuity of care across sectors in the Danish healthcare system for patients with COPD. More specifically the hypotheses are: 1. Affiliation to the outgoing lung team reduces admissions, readmissions, length of hospital stay and outpatient consultations. 2. Affiliation to the outgoing lung team reduces anxiety and depression and increases patient involvement, and improves patients' health status and self-efficacy. 3. Affiliation to the outgoing lung team increases patients' level of health literacy.
High-flow nasal cannula (HFNC) enables delivering humidified gas at high-flow rates controlling the oxygen inspired fraction (FiO2). Its efficacy has been demonstrated in hypoxemic acute respiratory failure. However, little is known about its use in hypercapnic acute respiratory failure (ARF). Therefore, we aimed to evaluate the effect of using HFNC through "Precision Flow" equipment as first line of ventilatory support for COPD patients with hypercapnic acute respiratory failure.
A cross-sectional, observational study of EBC H2O2 levels, as measured by a novel device, 'Inflammacheck™', and other markers of disease severity and symptom control in patients with Asthma and COPD and volunteers with no history of lung disease.
A cross-sectional, diagnostic accuracy study to evaluate the use of the 'Inflammacheck™' device in the diagnosis of COPD. Participants will be asked to provide an exhaled breath sample for measurement of their EBC H2O2 using 'Inflammacheck™'. The result will be correlated with spirometry (FEV1/ FVC ratio)