View clinical trials related to Pleural Effusion.
Filter by:The purpose of this research is to objectively assess activity behaviours (i.e., physical activity and sedentary behaviour) in patients with malignant pleural effusion. First, we aim to describe the physical activity and sedentary behavior of patients with MPE in Hong Kong. Secondarily, we aim to assess the relationships between activity behaviours and survival, quality of life, and respiratory symptoms e.g. shortness of breath.
Pleural effusion is the accumulation of excess fluid in the pleural cavity, which results in disturbance of the equilibrium between vascular hydrostatic and oncotic pressures. The underlying causes of pleural effusion include pleural inflammation or infection, congestive heart failure, lymphatic drainage blockage and malignancy.A parapneumonic effusion is a pleural effusion associated with lung infection. Early in the course of parapneumonic effusion, the pleura becomes inflamed with leakage of cellular elements, protein, and fluid into the pleural space, forming the effusion. Subsequent bacterial invasion results in a frank empyema, the presence of which often requires thoracentesis.
This study is designed to obtain preliminary data comparing indwelling pleural catheters (IPCs) versus IPCs plus doxycycline for pleurodesis as treatments for malignant pleural effusion (MPE). Indwelling pleural catheters (IPCs) are commonly used to treat pleural effusions (build-up of fluid in the lungs). Doxycycline is an antibiotic that is also used to treat pleural effusions. The goal of this clinical research study is to learn if adding doxycycline to the use of an IPC can lead to shorter treatment times with IPCs.
Consecutive patients who are planned to undergo a medical thoracoscopy for obtaining pleural biopsies will be enrolled in the study. One hundred subjects will be randomized in 1:1 ratio to undergo thoracoscopy to the following groups: Group A (mini-thoracoscopy) Group B (Conventional rigid thoracoscopy) Primary outcome: (a) diagnostic sensitivity of mini-thoracoscopy and conventional rigid thoracoscopy in the diagnosis of exudative pleural effusions
In this study, the investigators will collect data on patients who are using the Aspira system as part of their clinical care for the management of recurrent pleural effusion. Data will be collected on patient demographics, placement of the pleural catheter, palliation of dyspnea, complication rates, and rates of spontaneous pleurodesis.
Malignant pleural mesothelioma is a cancer, caused by asbestos, which currently affects 2500 people in the UK each year. The main symptom is breathlessness caused by fluid building up in the space between the lung and the chest wall (pleural effusion). Treatment involves draining the fluid to allow the lung to re-expand (pleurodesis). However, sometimes tumour growth over the surface of the lung can prevent it from re-expanding. This 'trapped' lung results in fluid re-accumulation and repeated drainage which can lead to discomfort and multiple hospital visits. One approach to dealing with 'trapped' lung in mesothelioma is to insert a thin tube (Indwelling Pleural Catheter - IPC) into the space around the lung. The tube can stay in place for a long time allowing patients to drain off fluid at home. Another approach is a keyhole surgical operation (video-assisted thoracoscopic partial pleurectomy/decortication - VAT-PD) to remove as much tumour as possible from the lining of the lung to allow it to re-expand. While both approaches are currently offered in clinical practice, it is not known which of the two is most effective at relieving breathlessness. The only way to find out is to conduct a research trial comparing the two. The Investigators plan to do this, but first of all need to carry out a small pilot study to collect information necessary to help plan the full study.
Pleural effusions occur commonly in patients recovering from cardiac surgery, however, the impact on outcomes is not well characterized. The purpose of this study is to characterize the outcomes of cardiac surgery patients with pleural effusions. All patients undergoing cardiac surgery between 2006 and 2019 were included in this observational, cross-sectional analysis using propensity matching.
This study will take place in Ottawa, Ontario, and will include 100 patients who are receiving tunnelled pleural catheters to treat their symptoms of MPE. The aim of this study is to evaluate the effectiveness of the shorter versus longer external length Rocket® pleural catheter in managing malignant pleural effusions in terms of patients' self-rated quality of life, its ease of use, the incidence of complications, and levels of health care provider satisfaction.
Patients with acute respiratory failure (ARF) who were receiving mechanical ventilator support, had significant pleural effusion (both transudates and exudates) and drainage plan were evaluated. Decision to drain, timing and duration of drainage were made by primary physician according to the intensive care unit (ICU) protocols.The estimated amount of effusion (mL) was calculated as the maximum pleura-lung distance (mm) x 20 and significant effusion is accepted as ≥ 800 mL according to thoracic ultrasonography (USG) performed by the intensivist. The amount of effusion drained, mechanical ventilator parameters, arterial blood gas results and hemodynamic data were recorded before, at the 1st hour and at the end of drainage up to 30 days after drainage.
In this trial, the effect of intrapleural docetaxel administration using medical pleuroscopywill be evaluated in Lung Cancer patient with malignant effusion.