View clinical trials related to Emphysema.
Filter by:To investigate the diagnostic value of ultralow-dose computed tomography in the detection of pulmonary nodules and lung parenchym alterations (e.g. emphysema) compared to standard-dose-CT.
The combined pulmonary fibrosis and emphysema syndrome (CPFE) individualized by our group in 2005 is characterized by an often severe dyspnea, almost exclusive male predominance, and often major, profound impairment of gas exchange contrasting with preserved lung volumes and absence of airflow obstruction, and a high risk of pre-capillary pulmonary hypertension responsible for increased mortality. Almost all patients are smokers or ex-smokers. There are some arguments in favor of genetic abnormalities in this syndrome of unknown etiology (other than smoking) including short telomeres and mutations in the telomerase complex genes. There are also emphysematous lesions, in patients with familial pulmonary fibrosis, with mutations in the SFTPC gene (surfactant protein C), and reported cases of CPFE syndrome with SFTPC mutation. No large genetic studies have been conducted to date in the CPFE syndrome. Our main hypothesis is that the proportion of subjects with short telomeres is higher among patients with CPFE syndrome than in subjects of similar age with idiopathic pulmonary fibrosis but without emphysema. It has previously been shown that mutations in the telomerase TERT or TERC genes are mostly found in people whose telomeres are abnormally short. The investigators propose to use that test to identify patients most likely carrying a mutation, and to seek, among them, the mutations in the TERT or TERC telomerase genes. The objective of the study is to compare the proportion of patients with short telomeres in the group of patients with CPFE syndrome to that of other patients (with idiopathic pulmonary fibrosis without emphysema, or with emphysema without fibrosis).
Improvement of sleep quality in emphysema patients is desirable. Yet, there are no data of patients treated with RePneu coils. This monocenter prospective study investigates the effect on sleep quality of RePneu coils for reduction of dynamic hyperinflation in advanced disease stages of pulmonary emphysema. Patient's sleep will be studied in three Polysomnography measurement nights, one prior to Coil Treatment, one six months after, and one twelve month after. Primary objective is to investigate differences in sleep quality 6 and 12 months after Coil Treatment. Further endpoints are changes in daily activity and sleep (actigraphy), 6MWT, lung function parameters, and questionnaires (SGRQ, mMRC dyspnoe scale).
The main objective of this trial is to evaluate the prevalence of alpha-1 antitrypsin quantitative and functional deficiency in an adult French population presenting with pulmonary emphysema. Phenotypic and genotypic studies will be carried whenever quantitative and/or functional deficiency will be displayed.
The objective of this study is to evaluate the safety and effectiveness of the RePneu Lung Volume Reduction Coil (LVRC) in patients with Alpha-1-Antitrypsin deficiency (AATD) caused emphysema. The hypothesis is that emphysema in AATD patients shows similar tissue destruction profile was well as symptoms and thus will respond favorably to LVRC treatment, demonstrating improvement in lung function, exercise capacity, and quality of life relative to their baseline status.
To determine the feasibility of delivering different community nutritional interventions to chronic obstructive pulmonary disease (COPD) patients at moderate or severe risk of malnutrition following a hospitalisation for an acute exacerbation of COPD.
The overall hypotheses of this proposal are that discrete phenotypes of HIV Chronic Obstructive Pulmonary disease (COPD) differ in their trajectories, biomarkers, and risk factors and that persistent viral infection including residual HIV is linked to HIV COPD.
The goal of this study is to evaluate the sensitivity and specificity of Electrical Impedance Tomography (EIT) as a bedside diagnostic tool for lung pathologies in patients who are mechanically ventilated. In electrical impedance tomography low amplitude, low frequency current is applied on electrodes, and the resulting voltage is measured and used to computed the electrical properties of the interior of the chest as they change in time. The computed properties are used to form an image, which can then be used for monitoring and diagnosis.
Rationale: The PneumRx RePneu Lung Volume Reduction Coil (RePneu LVR-coil) is a bronchoscopic lung volume reduction treatment designed to compress the areas of lung parenchyma most damaged by emphysema. The LVRC treatment was found to be feasible, safe and effective in previous studies. However, patient-based outcomes besides quality of life questionnaires are hardly measured after intervention treatments for COPD. Furthermore, the exact underlying physiological mechanism of the LVR-coil treatment is unknown. Another aspect of the treatment which we to date do not fully understand is which group of patients benefit of the treatment and which group of patients do not, this knowing that the responder rate is already about 60%. Objective: The objectives of the study are to gain more knowledge on 1) the effect of the LVRC treatment on patient-based outcomes like physical activity, 2) the underlying physiological mechanism of the treatment, 3) the predictors of response to the treatment at baseline, and 4) on a targetted treatment number of coils to be placed per lung using lung compliance. Study design: This study is a non-randomised open label multi-center intervention study. Study population: The study population exists of adult patients with severe emphysema with no other treatment options left besides surgical procedures. Intervention: Bilateral bronchoscopic lung volume reduction treatment with RePneu coils. Main study parameters/endpoints: The main study endpoint is the change in physical activity between baseline and 3 months follow-up after the second treatment. The secondary endpoints are the changes between baseline and 3 months follow-up after the second treatment in: patient reported outcomes of the treatment, dynamic lung hyperinflation, static lung volumes, lung compliance, diaphragm function, lung perfusion, systemic inflammation and small airways function. Nature and extent of the burden and risks associated with participation, benefit and group relatedness: The LVR Coil has been designed to be as safe as possible. It was shown that the risks associated with the LVRC system are largely attributable to the bronchoscopic procedure itself rather than to the device per se. Therefore, it appears that the LVRC device itself does not appreciably increase the risk of serious adverse events beyond the risk of undergoing a bronchoscopy procedure or simply having emphysema. Currently, this treatment is not commercially available in the Netherlands and study participants will have to visit the hospital multiple times. Previous studies have shown that the treatment has beneficial effect for the patient, however not all patients respond. Part of this new study is to try to identify which group of patients respond to the treatment and which patients do not. Therefore, it is possible that a patient will not receive any benefits from the treatment.
The clinical utility of bronchoscopic methods for achieving lung volume reduction has been evaluated in patients with advanced emphysema because these procedures are uniformly safer than surgical volume reduction. These include one-way valves, or bronchial occlusive devices to collapse emphysematous regions of lung and bronchial fenestration with bypass stents to improve expiratory flow, wire coils implants that compress the airway and thermal vapor ablation that causes an acute injury with subsequent fibrosis and reductions in volume.