View clinical trials related to Pleural Effusion.
Filter by:The main objective of the study is to assess the cost-effectiveness ratio of two management strategies of pleurisy in adults : a strategy by systematic thoracic ultrasound versus a strategy without thoracic ultrasound.
To assess the effect and toxicity of intrapleural administration of hypertonic cisplatin for malignant pleural effusion in patients with non-small-cell lung cancer.
Despite the improvement in the technology available for diagnosing and treating empyema, the management of empyema in children remains controversial. The purpose of this study is to compare the efficacy and safety of two common technical approach used for pleural effusion drainage in the treatment of childhood empyema.
The purpose of this study is to evaluate the efficacy and safety of intrapleural dornase alfa and tPA administered to patients with clinical failure of small-bore chest tube with persistent pleural effusions or malignancy-related loculated effusion to improve pleural drainage.
The effectiveness of pigtail catheter as a less invasive option for pleural drainage in patients with resistant hepatic hydrothorax.
Patients with Malignant pleural effusion can be diagnosis advanced cancer. Currently recognized as the most reliable method to control malignant pleural effusion is pleural fixed or thoracic catheter drainage. The most effective pleural fixed agent is pulvis talci, but there are about 30% relapse rate. Thoracic drainage can lead to some complications, such as chest infections, catheter migration and blockage etc. The investigators need a reliable methods to solve dyspnea and other symptoms caused by malignant pleural effusion, and improve quality of life. The purpose of this study was to determine the efficacy and Safety of intrapleural Bevacizumab versus pulvis talci as treatment for malignant pleural effusions (MPE) in patients.
Malignant pleural effusion (MPE) accounts for 50% of all pleural effusions and affects about 300,000 patients annually (UK and USA). Lung and breast cancers account for majority of malignant pleural effusions; 1 in 3 breast cancer, 1 in 4 lung cancer as well as > 90% of patients with mesothelioma develop pleural effusions. Breathlessness from MPE is disabling and impairs quality of life. Median survival ranges between 4-6 months. Although thoracentesis provides effective symptom relief, most effusions recur and pleurodesis is the standard of care. Pleurodesis can be performed via chest tube or applied during pleuroscopy, and talc is the most effective agent. For successful pleurodesis to occur the underlying lung must expand after fluid drainage and trapped lung due to metastatic disease occurs up to 30%. Symptomatic patients require hospitalization for these procedures which are likely to fail if trapped lungs are encountered, and pose significant burden to health services. Tunneled indwelling pleural catheter (IPC) is emerging as a viable alternative which provides access to the pleural space for fluid drainage when breathlessness arise. IPC can be performed at ambulatory setting without hospital admission. Case series have demonstrated long-term safety of IPC even in patients undergoing chemotherapy with acceptable complication rates. By keeping the pleural cavity free of fluid, IPC has led to spontaneous pleurodesis in 50% of patients, which allows its removal. Presently IPC is indicated for trapped lung or when talc pleurodesis has failed. A randomised comparative trial with talc pleurodesis is necessary to determine role of IPC as first-line therapy of MPE, if IPC leads to reduction in hospitalizations, adverse events and healthcare costs, and if it improves quality of life. The multicenter trial randomizes symptomatic patients 1:1 to IPC or talc pleurodesis, and endpoints include hospitalization days till death or end of study, adverse events, quality of life, and healthcare costs.
Malignant pleural effusion (MPE) is a common complication of advanced non-small cell lung cancer (NSCLC). Bevacizumab, a humanized monoclonal antibody against vascular endothelial growth factor (VEGF), has been shown to be efficient in suppressing the accumulation of pleural fluid. The other widely used treatment for MPE is recombinant human endostatin.
The objective of this study is to analyze the correlation between pleural elastance and the radiological effectiveness (measured by chest tomography) of pleurodesis performed via catheters in patients with RMPE. The secondary objectives of this study are: correlate pleural elastance with quality of life, analysis of dyspnea and pain after the procedure, clinical effectiveness, complications and mortality in 30 days.
Patients with cancer may experience problems with their breathing due to a fluid accumulation around their lungs called malignant pleural effusion (MPE). This fluid can be drained but draining may not stop the fluid from accumulating again. MPE can cause shortness of breath during activity and at rest leaving patients feeling as though they cannot catch their breath enough to be comfortable. Other symptoms can include pain, cough and weight loss. One way to stop the fluid from accumulating is to create scar tissue between the lung and chest wall so there is no more room for fluid accumulation. This procedure is called pleurodesis. Pleurodesis is the standard of care at most centres across Canada. This procedure is done by injecting a drug into the space between the lung and chest wall through a catheter, Doxycycline is one of the drugs currently used for this purpose. Traditionally, patients are admitted for pleurodesis, mostly because the size of the catheter used to inject the medication is very large but also because of the potential complications that can happen with these larger chest tubes. At our centre, most patients with MPE are managed at home with a smaller sized catheter known as a Pleurx catheter. The Pleurx catheter allows patients to remain at home for treatment and trained staff come into the home to both drain the MPE and monitor the patient. Sometimes, patients experience pleurodesis through use of the Pleurx catheter alone. Pleurodesis with doxycycline can happen faster than with the Pleurx catheter alone. It has been our experience with a limited number of patients that it is safe to perform pleurodesis using the Pleurx catheter for doxycycline injection in an outpatient setting.