View clinical trials related to Pulmonary Emphysema.
Filter by:To evaluate for any adverse effects that may be related to the administration and reception of autologous adipose derived stromal vascular fraction (SVF). Secondarily, the study monitors the results of subjective and objective findings as it applies to the non-blinded deployment of autologous SVF for various inflammatory and/or degenerative conditions including select orthopedic, neurologic, urologic and cardio-pulmonary conditions. SVF deployments include intra-venous, intra-articular, and soft tissue injections.
Aim: To evaluate feasibility, safety and efficacy of relatively simple approach of bronchoscopic lung volume reduction (LVR) technology, independent of collateral ventilation. Description: Patients with severe upper lobes heterogeneous emphysema, undergo unilateral bronchoscopic installation of saline thermal energy 50-55 ºC intending to induce an inflammatory airway and parenchymal injury and consequently fibrotic response resulting in LVR;
The purpose of this study is to prospectively evaluate the safety and efficacy of the AeriSeal System in patients with advanced Non-Upper Lobe Predominant Heterogeneous Emphysema.
This clinical trial evaluates the impact of catheter-based measurement of interloabr collateral ventilation prior to endoscopic lung volume reduction in patients with hetereogeneous emphysema and complete interlobar fissures in high resolution computed tomography.
The combined use of one-way endobronchial valves and bone-marrow derived mesenchymal stromal cells in patients with severe pulmonary emphysema is safe and will contribute to increase quality of life.
To assess efficacy of bronchoscopic lung volume reduction in Korean emphysema patients
As part of the long-term goal of successfully implementing tissue regeneration strategies in an individualized manner for patients with thoracic diseases including, but not limited to: cystic fibrosis, pulmonary fibrosis and pulmonary hypertension, the investigators will assess the feasibility of collecting skin biopsies from patients undergoing surgery for thoracic disease, culturing skin fibroblasts from the biopsy, and reprogramming these skin fibroblasts into induced pluripotent cells.
Actively developing stem cells (SCs) transplantation techniques cause natural interest to the problem of regeneration in the lungs. Numerous experimental studies proved the benefits of different types of SCs in experimental models of pulmonary emphysema (PE). G. Zhen et al. have shown that the transplantation of mesenchymal stem cells (MSCs) to rats with papain-induced emphysema leads to their migration into the lungs, differentiation into type 2 alveolocytes, and inhibition of apoptosis and prevention PE. K. Schweitzer et al. have proved the activity of inflammation in the airways, alveolocytes and endothelial cells apoptosis decreased after adipose SCs intravenous administration to mice with emphysema caused by chronic exposure to tobacco smoke or VEGF receptors blockade. The study of E.P. Ingenito et al. found that endobronchial installed MSCs engraft into the alveolar wall and peribronchial interstitium and release integrins, extracellular matrix components (collagen IV, laminin and fibrillin), platelet-derived growth factor receptor and transforming growth factor β2. Our study also found reliable deterrent effect of allogeneic bone marrow MSCs on the development of elastase-induced emphysema in rats at different terms of transplantation. After the success of pilot studies have started clinical trials. Currently, the website http://www. ClinicalTrials.gov reported three studies evaluating the efficacy and safety of MSC transplantation in patients with COPD and emphysema. Two of them have already been completed and the results of the first pilot project published. Authors on the example of 4 patients showed a complete absence of adverse effects, improved quality of life and stability of functional parameters at 12 months after starting treatment One of the problems of MSC transplantation in patients with respiratory failure is an accelerated apoptosis of transplanted cells under the influence of proinflammatory cytokines and oxidative stress. Since it is proved that preconditioning MSCs under hypoxia increases their survival in hypoxic conditions, increases the expression of growth factors and antiinflammatory cytokines, we suppose that MSCs grown in hypoxic medium may have a significant positive effect on the disease.
- BACKGROUND: Medical therapeutic options for the treatment of emphysema remain limited. Lung volume reduction surgery is infrequently used because of its high morbi-mortality. Endobronchial lung volume reduction coil (LVRC(®), PneumRx, Mountain View, CA) treatment has been recently developed and has been shown to be feasible and associated with an acceptable safety profile, while resulting in improvements in dyspnea, exercise capacity and lung function. The objective of this study is to analyze the cost effectiveness of LVRC treatment in severe emphysema. - METHODS:This prospective, multicenter study, randomized with a 1:1 ratio (LVRC vs conventional treatment) will include 100 patients who will be followed up for 1year. The primary outcome measure is the 6-month improvement of the 6-minute walk test: the percentage of patients showing an improvement of at least 54m will be compared between groups. A cost-effectiveness study will estimate the cost of LVRC treatment, the global cost of this therapeutic option and will compare the cost between patients treated by LVRC and by medical treatment alone. - EXPECTED RESULTS:This study should allow validating the clinical efficacy of LVRC in severe emphysema. The cost-effectiveness study will assess the medical-economic impact of the LVRC therapeutic option.
EMPROVE is a multicenter, prospective, randomized, controlled study designed to evaluate the safety and long-term effectiveness of the Spiration Valve System in patients with emphysema. Patients appropriate for the EMPROVE study are those who are currently on medical treatment but still symptomatic. EMPROVE also accepts α-1 antitrypsin deficiency patients.