View clinical trials related to Obstructive Lung Diseases.
Filter by:Background: Neurally Adjusted Ventilatory Assist (NAVA) mode is a new mode of ventilator, using electronic potential of diaphragm to adjust tidal volume. At the same time, this mode can trigger and cycle-off inspiratory time by high sensitivity of electronic potential of diaphragm, increase patient-ventilator synchrony, reduce sedative drug, improve oxygenation, shorten mechanical ventilation day and reduce the rate of diaphragm atrophy. It can improve survival rate and hospital day of patients. Both the animal and human experiment have the effect of lung and diaphragm protection Effect: The results of this trial are expected to obtain electronic potential of diaphragm in patients with obstructive pulmonary disease. Reviewing the current literature, few related literatures have such data presentation. This trial hopes to evaluate whether the use of NAVA can reduce mechanical ventilation day by analyzing electronic potential of diaphragm in patients with obstructive pulmonary disease. Investigators expect that participants with obstructive pulmonary disease using NAVA mode will have significantly less mechanical ventilation day than using conventional mode
Scientific research focuses on "eosinophilic inflammation" as it seems to guide the therapeutic regimen in patients with asthma and COPD. The primary objective of this prospective trial is to evaluate which parameter(s) best reflects eosinophilic inflammation by correlating tissue eosinophils (endobronchial biopsy, protected specimen brush sampling) with FeNO, peripheral blood eosinophils, and eosinophils in the bronchoalveolar lavage of patients with obstructive pulmonary disease.
In patients with severe Chronic Obstructive Pulmonary Disease (COPD), exercise tolerance is severely impaired due to a ventilatory limitation, levelling off the intensity of exercise. This reduces the physiological benefit of pulmonary rehabilitation. In these patients, it is then proposed to add an Inspiratory Pressure Support (IPS) in order to increase the intensity and the duration of every training session. In a preliminary study, the investigators showed that IPS applied during an exhaustive cycling exercise allowed to prevent the onset of post-exercise quadriceps fatigue evaluated by the endurance time to isotonic quadriceps contractions (TlimQ). The aim of this study is to determine the relationship between the prevention of post-exercise fatigue (TlimQ) and the change in training load (intensity x time x number of sessions) during a pulmonary rehabilitation programme. At the beginning of the training programme, 25 patients will be evaluated for TlimQ after a cycling exercise (70% maximal workload) with and without IPS in random order. The training load was then monitored at every exercise session of the programme.
The investigator will determine a compliance of two diagnostic techniques (EIT and Body plethysmography) in collective of children and teenagers with obstructive lung disease and a matched control group.
Respiratory conditions impose an enormous burden on the individual and the society. According to the WHO World Health Report 2000, the top five respiratory diseases - including asthma and COPD - account for 17% of all deaths and 13% of all Disability-Adjusted Life Years (DALYs). Obstructive lung diseases are among the most common chronic diseases in working-aged populations affecting ~40 million individuals in Europe. The greatest economic burden of respiratory diseases on health services and lost production in the EU is due to COPD and asthma, at about €20 billion each for healthcare and €25 billion and €15 billion, respectively, for lost production. For Norway, there are no estimates of asthma prevalence for the country as a whole, but 80/1000 women and 55/1000 men used asthma medication in 2013 according to the national prescription register. Estimated annual deaths in Norway due to COPD were 4070 in 2015, which is 30% higher than for lung cancer. Unfortunately, a substantial proportion of patients are still difficult to treat. This underlines the need for better primary prevention and more knowledge regarding causes and exacerbating factors. Several risk factors for chronic respiratory diseases are identified, most important tobacco smoke, closely followed by air pollution and occupational exposure. However, according to recent reviews there is a lack of understanding regarding environmental risk factors and mechanisms of how these affect respiratory health, the importance of biological markers and comorbidity, and of socioeconomic risk factors. Moreover, there is a need for assessment of interactions between risk factors and between the individual and the environment. Telemark has a high proportion of craft- and industrial workers providing exposure contrasts. Furthermore, the use of medication against respiratory diseases and the rate of sick leave are higher in Telemark than elsewhere in Norway. Moreover, the county has a high rate of disability. There are previous studies from other parts of Norway, which have estimated the occurrence of respiratory diseases and provided valuable knowledge regarding some risk factors. However, these studies use crude measures of self-reported exposure and do not provide sufficient information on how to target intervention and implement effective prevention. In contrast to the Telemark study, these studies have not included register data or advanced modelling of environmental exposure.