Gelatinous fibrinous deposits are removed with a curved ring forceps clips. The visceral pleural peel can be debrided using ring-forceps and a dissector as in an open decortication. Once a pleural
space has been created the removal of fibrinous material is performed starting from the apex of the lung and proceeding Selleck PI3K Inhibitor Library to the diaphragm or vice versa. The sucker and ring clamp are used together to remove the fibrinous material from the pleural cavity. Intermittent ventilation of the lung is used to assess the completeness of the decortication as the dissection proceeds. If adequate progress is not being made or there is inadequate expansion of the lung to fill the chest, then conversion to open decortication should be performed. Particular
care should be taken with hemostasis both on the parietal and visceral pleura. Once adequate debridement has been accomplished, Target Selective Inhibitor Library irrigation is performed and the lung expansion is visualized to ensure the pleural cavity is filled by the lung. Chest tubes can be placed anteriorly and posteriorly for air and fluid drainage. The chest tubes are maintained on suction to make sure there is complete lung expansion and adequate drainage of the pleural space In all 11 children a video-assisted thoracoscopic surgery (VATS) with debridement, and placement of pleural tubes under visual control was performed. In every case the lung expansion was partial after VATS, despite of active suction and drainage (Fig. 2 and Fig. 5). Starting from the 2nd post-operative day, all children received fibrinolytics once daily Dolichyl-phosphate-mannose-protein mannosyltransferase for 2–4 days via chest tubes. The fibrynolytic agents used for treatment were urokinase (UK) in 2 cases and streptokinase (SK) in the rest. Urokinase
was used for procedures performed after 2007 year. The tube was clamped for 1 h and then left open and connected to a water seal device and placed to 15 cm H2O suction. The fibrinolytic agent was diluted in 10–50 ml of normal saline, with the volume arbitrarily selected on the basis of patient age and size and estimated volume of the pleural space to be treated. Treatment doses of streptokinase ranged from 12,000 IU to 250,000 IU, and treatment doses of urokinase were 50.000 IU (children weighing about 60 kg – to produce a concentration of 1.000 IU/ml). The activated partial thromboplastin time, prothrombin time, and hemogram were determined routinely before instillation of the fibrinolytic agent. The vital signs were closely observed. Fever and chest pain observed in two cases after use of streptokinase, was not noted after urokinase. The discomfort was easily managed by the administration of acetaminophen. Daily anteroposterior chest radiographs were obtained with the patient in an upright or semiupright position. Fibrinolytic treatments were continued until chest radiographs showed improvement (Fig. 4 and Fig. 5). In 3 patients, lack of lung expansion made the second VATS debridement necessary.