View clinical trials related to Emphysema.
Filter by:The purpose of this protocol is to perform a pilot prospective controlled clinical trial to evaluate the potential role of lung fissure completion with pleural adhesiolysis strategy (experimental intervention) in severe emphysema/COPD patients with failed bronchoscopic lung volume reduction (BLVR) via the use of endobronchial valves (EBVs) therapy. In select patients, the lung fissure completion with adhesiolysis strategy will be performed by video-assisted thoracoscopic surgery (VATS) guided stapling along the lung fissures to reduce collateral ventilation with adhesions removal and determine whether this experimental strategy will improve outcomes after failed BLVR in patients with severe emphysema/COPD.
Bronchoscopic lung volume reduction (BLVR) using endobronchial valves is effective in improving quality of life in patients suffering from emphysema. BLVR treatment in advanced emphysema requires targeted segmental or sub-segmental placement of endobronchial valves (EBV) to achieve total lobar occlusion to induce effective lobar volume reduction. BLVR procedure success rate declines in patients with incomplete lobar fissure integrity due to the potential for collateral ventilation to circumvent EBV lobar occlusion. Current methods that assess lobar collateral ventilation as a correlate of fissure integrity are imperfect, resulting in a significant percentage of patients having equivocal assessment, leading to suboptimal selection of patients and potential for inappropriate selection of patients for BLVR. Additionally, methods used to select the target lobe for EBV placement predominately rely on the extent of emphysematous destruction. There is also a need to select based on the extent of physiological disturbance at the lobar level. Distribution of ventilation or regional ventilation heterogeneity may be associated with collateral ventilation. Therefore, in this study we wish to quantify lobar distribution of ventilation and ventilation heterogeneity in patients undergoing investigation for BLVR to determine the additive contribution of functional lung imaging for assessing lobar physiological derangement and suitability for EBV treatment.
This study is designed to prospectively document changes in FEV1 and health-related quality of life 12 months following sequential segmental treatment with InterVapor® in patients with heterogeneous emphysema with upper lobe predominance. For validity of the study, the results will be compared to patients that receive optimal medical therapy.
The Pulmair Implantable Artificial Bronchus (IAB) is a device intended for implantation into the diseased bronchi of emphysema patients. The IAB is indicated for bronchoscopic treatment of adults with Chronic Obstructive Pulmonary Disease (COPD)/emphysema to relieve hyperinflation and allow bidirectional ventilation of the affected lobes. The objective of this trial is to demonstrate a suitable benefit/risk profile to support a subsequent trial of the safety and effectiveness of the IAB to achieve its intended purpose. The trial will enroll 24 subjects implanted with IAB(s), at no more than three study centers.
Lung emphysema is often associated with chronic obstructive pulmonary disease (COPD) and without any cure. Dyspnea is the main, debilitating symptom and is relieved by inhaled bronchodilators and rehabilitation. However, a substantial number of patients continue to suffer from dyspnea and among these, many patients have severely hyperinflated lungs due to predominant emphysema. For selected patients, lung transplantation or lung volume reduction by surgical removal (LVRS) of the most emphysematous parts of the lung can improve symptoms and survival. However, LVRS is related to complications and not all patients are suitable for surgery. An alternative to LVRS is bronchial lung volume reduction with endobronchial valves (EBV). One-way valves are inserted in the bronchial system using a bronchoscope and it has emerged as a valid treatment option with similar effects as LVRS with reduction of hyperinflation and increasing pulmonary function, quality of life, and exercise capacity. The normal lung is colonized with several types of bacteria, and together this is called the microbiome. Some bacteria are potentially beneficial, while others are potentially harmful. After the insertion EBV, some patients develop chronic infections. The hypothesis is that the microbiome can affect the risk of this chronic infection, and therefore the objective of this study is to access the microbiome during the insertion of the EBV, and afterwards observe which patients develop chronic infection and if these patients are harbouring specific types of bacteria.
The objective of this registry is to collect and evaluate various clinical effectiveness parameters in patients with transplanted donor lung that were preserved and transported within the LUNGguard system, as well as retrospective standard of care patients
Rationale: Pulmonary emphysema is a component of Chronic Obstructive Pulmonary Disease (COPD) characterized by chronic inflammation with neutrophils and monocytes mediating the tissue destruction under the regulation of various types of lymphocytes. Bone marrow-derived mesenchymal stromal cells have potential to halt the progressive inflammatory response as indicated by the investigator's pilot study (CCMO NL28562.000.09) . Objective: To determine whether patients with emphysema develop anti-inflammatory and tissue repair responses by treatment with allogeneic bone marrow-derived mesenchymal stromal cells (MSC) from healthy donors. Study design: an explorative double-blind, placebo-controlled randomized (2:1) trial in 30 patients with moderate to severe emphysema who are scheduled for two separate sessions for surgical lung volume reduction (LVRS). The study treatment is intravenous allogeneic MSC or placebo treatment in between the first and second surgical session. Randomisation will allocate 10 patients to receive 2 x 106 /kg body weight MSC in a range of 1.5 x 106 MSC/ kg to 2.5 x 106 MSC/ kg (at a maximum of 200 x106 MSC per study participant) iv (or 5 patients to receive placebo) at week 4 and 3 before the second LVRS, and will allocate 10 patients to receive 2 x 106 /kg body weight MSC in a range of 1.5 x 106 MSC/ kg to 2.5 x 106 MSC/ kg (at a maximum of 200 x106 MSC per study participant) iv (or 5 patients to placebo) at week 12 and 11 before the second LVRS. Main study parameters/endpoints: the study has a co-primary endpoint. First, the difference in expression of CD31 on cells per micrometer alveolar septae present in lung tissue harvested at the second LVRS from patients who received MSC at 3 and 4 weeks prior to LVRS2 or placebo. Second, the difference between MSC and placebo treatment in change in CO diffusion capacity over a period of 3 years following LVRS2.
Background Numerous surgicals treatments have been described for the massive subcutaneous emphysema; however, some of these techniques cannot be carried out in a critical care unit and they are related with high morbidity and exposure in positive SARS COV-2 patients. More effective, less invasive and isolated procedures should be implemented. Technique Negative pressure therapy (NPT) that can allow effective solving of massive subcutaneous emphysema in a short period (5 days) with a minimally invasive approach at the bedside in Covid-19 or non infected critical patients. Conclusion NPT is an effective and low invasive strategy for the management of EES in critical patients with high risk of mortality.
The purpose of this protocol is to perform a pilot prospective randomized controlled clinical trial to evaluate the potential role of lung fissure completion strategy (experimental intervention) in addition to endobronchial valve (EBV) placement (representing "standard-of-care") in select patients with severe COPD/emphysema and with evidence for <95% fissure completion between adjacent lung lobes. In select patients, lung fissure completion strategy will be performed by either video-assisted thorascopic surgery (VATS)-guided or robotic-guided stapling along the lung fissures in an attempt to reduce collateral ventilation and determine whether or not this experimental strategy will improve outcome following subsequent EBV placement. EBV placement will follow successful VATS-guided or robotic-guided fissure stapling. The study will enroll approximately 20 patients at BIDMC, and outcomes will focus on procedure-related complications, physiological measurements (ex., FEV1 by pulmonary function testing) and clinical symptoms (i.e., questionnaires). Patient will be followed for 3-month period, receiving usual standard of care during the 3 months of follow-up. The goal of this protocol is to determine if elimination of significant collateral lung ventilation between lung lobes is possible, and whether such strategy to eliminate collateral lung ventilation between lobes improves outcomes following subsequent EBV placement (i.e. promotes atelectasis of diseased lung segments) in the management of severe COPD/emphysema in appropriate candidates. For subjects in the medical management control group, upon completion of the 3-month F/U period, they will be eligible for EBV if they choose.
This study will investigate the utility of 4D Medical's X-ray Velocimetry (XV) imaging analysis software for the detection of hyperinflation, and compare endobronchial valve placement outcomes with predictive indices obtained utilizing this technique.