View clinical trials related to Pleural Effusion.
Filter by:To investigate the diagnostic power of computed tomography for discriminating malignant from nonmalignant causes to pleural effusions in consecutive patients with no malignant cells found at a cytological examination and a chest x-ray not suspicious of malignancy. The investigators hypothesised that the combination improves the chance of detecting the cause of the pleural effusion.
Pleural effusion is an accumulation of fluid between the tissue layers that line the lungs and chest cavity. It has an estimated prevalence of 320 per 100,000 people in industrialized countries. The cause of the pleural effusion remains unclear in a substantial percentage of patients with persistently exudative effusions.
Up to 20 patients with malignant pleural effusions will be interviewed about their experiences of having this condition and its management.
Evacuation of pleural effusion (PE) represents a disputable therapy in mechanically ventilated patients. Patients on mechanical ventilation indicated by the physician to pleural fluid evacuation will be monitored throughout the procedure by electrical impedance tomography (EIT) and concurrently end-expiratory lung volume (EELV) will be measured in order to describe impact of PE evacuation on aeration and ventilation of the lungs.
Multicentric, international, web-based prospective documentation of the indications and results of Pressurized Aerosol Chemotherapy (so-called PIPAC or PITAC) for treating malignant pleural and peritoneal diseases. Indication is decided by the treating physician. There are no predefined inclusion or exclusion criteria.
There are no investigations so far whether an application of positive pressure during non-invasive ventilation might be a therapeutic option for transudative pleural effusion in patients with heart failure. In view of the pathophysiological process with pleural effusion resulting from an increase in intravascular hydrostatic pressure, non-invasive ventilation might provide an improvement. The aim of the present study is to investigate whether an additional non-invasive ventilation therapy leads to an improved suppression of pleural effusion in heart failure patients.
interventional randomized clinical trial will be done at Assuit University Hospital ( Chest Department and Caridothoracic surgery department ),and all patients presented with complex septate pleural effusion in whom the symptoms excepted to be relieved by pleural fluid drainage will be included in our study within the two next years.
Previous studies have shown that the removal of the chest tube after lung surgery significantly improves pain symptoms and lung function. The criteria for chest tube removal still remain vague in modern thoracic surgery and rely on personal experience instead of evidence-based criteria. Every hospital has its own traditional standard fluid threshold and believes in that without adapting and comparing it not even after introduction of newer and more minimal-invasive operation technique. According to literature the traditional fluid threshold is varying from 100 to 500 or even more millilitre in 24 hours. Since pleural fluid resorption is proportional to body weight the investigators believe that a body weight related approach of chest tube management would improve safety and would allow an earlier chest tube removal without a higher rate of complication. In this way the investigators believe in improving pain management and in achieving earlier discharge of the patient.
During general anesthesia, functional residual capacity (FRC) is reduced. If the FRC is lower than the minimum volume required to maintain the opening of the airways, there is a derecruitment of the lung parenchyma, leading to the phenomenon of expiratory flow limitation (EFL). The Driving Pressure (DP) is the difference between the plateau pressure (Pplateau) and the Positive End-Expiratory Pressure (PEEP), and estimates the lung strain. The incidence of EFL and the importance of DP are not known in adult cardiac surgery, so it's necessary a study to assess both. The primary end-point of the study is to evaluate the correlation of DP and EFL with PPCs in adult cardiac surgery. The secondary end-point of the study is to evaluate: the mechanical ventilation time, the length of ICU and hospital stay, the rehospitalization and mortality. It will be a prospective, observational, non-pharmacological study. It will enroll 200 patients undergoing elective adult cardiac surgery.
Question: What level of noninvasive positive airway pressure is able to expand the lungs of people with pleural drainage? Design: Cross-sectional, experimental and randomized study. Participants: Four consecutive people with pleural effusion drained within 24 hours, with controlled pain and without contraindications to use of noninvasive positive pressure. Intervention: Each person will be randomly subjected to three levels of noninvasive positive airway pressure: 0 (zero), 4 and 15 cmH2O for evaluation via chest computed tomography. Outcome measures: Lung area.