View clinical trials related to Pleural Effusion.
Filter by:The 40 resident study subjects will be randomized to either receive a training session on use of a pocket-sized ultrasound or to receive training on physical exam skills. Following these sessions the subjects will have the opportunity to practice their skills during clinical rounds at BWH inpatient and outpatient settings. Four weeks after the training session all study subjects will take part in an assessment of their diagnostic skills. During this assessment they will be asked to complete an exam on a patient subject. Those randomized to the ultrasound group will be allowed to use their devices while the control group will use the traditional physical exam. Following the exams, resident study subjects will be asked to indicate whether they detected any of the following abnormalities on their exams: pleural effusion, hepatomegaly, cirrhotic liver, splenomegaly, ascites, aortic stenosis, mitral regurgitation, right atrial pressure, abdominal aortic aneurysm, deep vein thrombosis. Resident study subjects will also complete a questionnaire about the physical exam and use of the ultrasound. Prior to the assessment, all patients will undergo ultrasound by an attending radiologist, and these results will serve as the "gold standard" for our study.
Drainage of air and fluid from the chest cavity using plastic tubes (chest drains) is an essential tool in Chest Medicine. A common complication of drain insertion is accidental removal of the drain, usually as a result of inadequate securing techniques, with rates of up to 1 in 5 reported. This often results in the need for further procedures (including drain re-siting), with associated additional risk to the patient and an increase in health care costs. One suggested method to reduce premature drain removal is to use chest drains with ballooned tips, much like a bladder catheter. These would provide a physical obstruction inside the chest cavity at the insertion site, whilst being easy to use as stitching or extensive taping may not be required. The investigators propose a trial of a dedicated ballooned chest drain to investigate whether a reduction in drain re-siting rates can be achieved. Pain scores will also be assessed during this trial to ensure that irritation of the lining of the lung or chest wall by the balloon is not excessive.
This study investigates if data about monitoring the drainage of pleural effusion can be collected by non invasive sensors (feasibility).
The chest cavity contains a small amount of fluid (pleural effusion). In normal circumstances this fluid is kept in balance. When surgery is performed on the lung, there can be accumulation of more fluid due to many causes. In order to drain this additional amount of pleural fluid, chest tube(s) are left in the thoracic cage after a lung resection procedure. The investigators are attempting to reduce the amount of pleural fluid production and formation by using a more balanced thoracic drainage system, which adjusts the amount of suction depending on the needs of the patient. That way, the amount of inflammation in the thoracic cage might be smaller, and hence less fluid will be formed. By this, the investigators are hoping that the chest tubes can be removed earlier, and the patients can be discharged faster and will potentially have a lower rate of re-admission to the hospital after surgery due to problems related to the fluid in the thoracic cage.
Pleural effusion and the complexity of diagnosis and treatment make planning and delivering care challenging. Respiratory physiotherapy is recommended, and should be applied during the first weeks of treatment.The aim of the present study is to demonstrate the effectiveness of a respiratory physiotherapy protocol in patients with Pleural Effusion who attended a University Hospital.
Rigid thoracoscopy is an established procedure for the performance of pleural biopsies for undiagnosed pleural effusions. The semirigid thoracoscope is a relatively new instrument designed for the same purpose which is claimed to be more user-friendly. The two devices have not been compared in a head-to-head trial in published literature. The investigators attempt to conduct a randomised comparative trial between the two devices.
MPM patients are not eligible for surgical procedures like decortication or pleuro-pneumectomy and have a median survival of 12 months with palliative chemotherapy. Therefore, new therapeutic approaches are of crucial need in this clinical situation. This is a phase I trial for patients with malignant pleural mesothelioma with pleural effusion testing the safety of a fixed single dose of 1x10e6 adoptively transferred FAP-specific re-directed T cells given directly in the pleural effusion. Lymphocytes will be taken 21 days before transfer from peripheral blood. CD8 positive T cells will be isolated and re-programmed by retroviral transfer of a chimeric antigen receptor (CAR) recognizing FAP which serves as target structure in MPM. - Trial with immunomodulatory product / biological
The purpose of this study is to determine if the use of fortified skimmed mother's milk is a safe alternative to specialized formula in the treatment of chylothorax following cardiothoracic surgery.
Iodopovidone is safe when using as a pleurodesis sclerosing agent for malignant pleural effusion, with minimal adverse events, especially reducing dose.
To determine the efficacy and Safety of intrapleural Bevacizumab and cisplatin as a treatment for malignant pleural effusions (MPE) in patients with non-small cell lung cancer (NSCLC).