View clinical trials related to Lung Diseases, Obstructive.
Filter by:Data from chronic obstructive pulmonary disease patients awaiting lung transplantation which performed a pulmonary rehabilitation program will be analyzed retrospectively. Acute exacerbations occur frequently in these patients and have a major impact on the course of the disease. This study investigates the prevalence and the impact of acute exacerbations during pulmonary Rehabilitation in patients with severe chronic obstructive pulmonary disease patients awaiting lung Transplantation that continued the Rehabilitation program despite an acute exacerbation. Data will be taken from the internal database of the reference center (Schoen Klinik Berchtesgadener Land, Schoenau, Germany) where these data were collected during clinical routine.
This study will monitor physical bio-markers such as heart rate, respiratory rate, and temperature to detect potential respiratory infections.
This phase III trial compares the effect of adding tocilizumab to standard of care versus standard of care alone in treating cytokine release syndrome (CRS) in patients with SARS-CoV-2 infection. CRS is a potentially serious disorder caused by the release of an excessive amount of substance that is made by cells of the immune system (cytokines) as a response to viral infection. Tocilizumab is used to decrease the body's immune response. Adding tocilizumab to standard of care may work better in treating CRS in patients with SARS-CoV-2 infection compared to standard of care alone.
This is an international, mulitcentre, observational, prospective study into Peak Inspiratory Flow in COPD patients that aims to: A) Determine the prevalence of suboptimal Peak Inspiratory Flow (PIF) and inadequate inhaler choice and assess the baseline characteristics of these groups. B) Assess the clinical role of PIF and inhaler choice in predicting COPD exacerbations and symptom burden. C) Assess the variability and correlation of PIF with other lung function measurements and CAT score in stable COPD. It is a 12 month study comprising one baseline assessment and 2 follow-up visits at 6 and 12 months.
End-tidal CO2 measurements in children will be assessed for their accuracy with arterial CO2 measurements.
This study will test whether daily use of azithromycin will reduce the rate of exacerbations and improve lung ventilation and perfusion assessed by XE-MRI. The sensitivity of XE-MRI to detect COPD progression will be compared with standard clinical assessment measures including standard lung function tests, 6 minute walk test, and patient reported quality of life.
OBJECTIVE: This study was undertaken to assess the effect of repeated video-training sessions on the adequacy of metered-dose inhaler (MDI) among individuals with COPD. BACKGROUND: MDI devices facilitate the use of inhalation drugs in COPD patients and have become ever more important over the years. However, this device requires a certain level of hand-to- mouth coordination and cognitive ability. Since it has a high risk of application errors, training in its use is important to treatment success. DESIGN: Randomised controlled trial METHOD: This study was carried out from 1 February to 1 July 2017 with the participation of 40 COPD patients. The data were collected using a 'Patient Information Request Form' and an 'MDI Skill Evaluation Form'. CONSORT checklist was used to report the current study. RESULTS: It was found that there was no significant difference between the experimental and control groups in terms of the mean scores of the 1st measurement (p > .05), though the mean scores of the 5th measurement were significantly higher in the experimental group (p< .001). In the 5th measurement, it was identified that the control group had 'moderate' adequacy (3.20±1.6), while the experimental group had 'satisfactory' adequacy (8.70 ± 1.17), indicating that the patients in the experimental group made fewer mistakes and showed improved adequacy. CONCLUSION: It was found that repeated video-training sessions materially improved MDI skills. Relevance to clinical practice. Supporting the training on inhaler drug therapy with visual technological tools and regular checking of drug use will contribute to COPD management.
INTRODUCTION: The complexity of the pathophysiology of heterogeneous diseases such as heart failure and obstructive pulmonary disease causes a different approach to these diseases or with a view as much as a better understanding of the same situations, with which the clinical profile of patients who are associated with an association is. It is known that regular physical training promotes progressive improvements in exercise tolerance, in the pulmonary ventilation / perfusion ratio and in respiratory function by strengthening. OBJECTIVE: To compare the effects of high-intensity interval training and continuous aerobic exercise, with peripheral endothelial function, brain natriuretic peptide levels, maximum exercise tolerance, distribution of lung volumes and quality of life of patients with obstructive pulmonary disease associated with heart failure. METHODS: This is a clinical, controlled, randomized and blinded trial. Peripheral endothelial function, tolerance to maximum and submaximal exercise, distribution of lung volumes, quality of life, presence of symptoms of depression and perception of clinical change will be evaluated. EXPECTED RESULTS: Incorporate into the care of these patients, new effective therapeutic approaches, of low cost and with greater technical and scientific evidence.
In this study, patients with Chronic Obstructive Pulmonary Diseases (COPD) in stable and acute exacerbation stage were selected as the research objects, and the open, parallel and randomized controlled clinical trial design was adopted. Participants were randomly divided into trial group and control group. The control group was only given routine education, and the experimental group, on the basis of routine education, developed a respiratory rehabilitation training program lasting for 12 weeks according to the individual situation of patients. All participants were interviewed for 6 times (baseline and 4,8,12 weeks, 6 months and 12 months after admission) for a period of 1 year. Acute exacerbation, activity tolerance (6-minute walking test), living environment, clinical symptoms, lung function, airway inflammation water level index and biological samples were collected at each visit. At the same time, according to the diary filled in by the patients, the investigators can obtain the daily stay time indoors and outdoors and the longitude and latitude information of the regular stay fixed place, and geographic information system (GIS) is used to match the nearest environmental monitoring station, obtain the data of air pollutants and meteorological indicators (SO2, NO2, Co, O3, PM10, temperature and humidity, etc.), and estimate the individual exposure level of air pollutants.
According to the recommendations of French and international learned societies, respiratory rehabilitation is part of the care of patients with Chronic Obstructive Pulmonary Disease (COPD). Indeed, scientific work carried out for more than 10 years on the respiratory rehabilitation of patients suffering from COPD shows that respiratory rehabilitation allows a reduction of the handicap caused by the disease and an improvement in the quality of life of the patients. A respiratory rehabilitation program (PRR) includes: individual exercise re-training, therapeutic education, respiratory physiotherapy, help with smoking cessation and nutritional and psychosocial care. Exercise retraining includes training the muscles of the lower limbs in endurance and strength combined with training the muscles of the upper limbs. Strengthening the upper limbs helps reduce dyspnea in patients with COPD. In order to determine a precise muscle building protocol, it is necessary to assess at the start of the program the maximum voluntary strength (FMV) of the different muscle groups of the upper limbs. Measuring FMV quantifies a possible frequent strength deficit in patients with COPD and the effects of the strengthening program. Currently, tests to assess FMV using isokinetic dynamometers are used as a benchmark. However, this material is little used in current practice. Portable dynamometers are used to perform simple tests and to obtain muscle strength measurements. However, the reliability of the maximum voluntary force measurements of the different muscle groups of the upper limb has not been evaluated. Studies seem necessary to determine the reproducibility of the measurement in intra and inter-examiner (Schrama 2014) and to assess its sensitivity to change during a respiratory rehabilitation program. The objectives of this study are to study the reproducibility, validity and sensitivity to change of the measurement of FMV using a portable dynamometer.