BACKGROUND: For support of pulmonary function during complex thoracic surgical procedures, especially in respiratory compromised patients, a pumpless interventional lung assist (iLA) was applied. Feasibility and effectiveness for this novel indication were evaluated. METHODS: Ten patients underwent thoracic surgery with respiratory support by iLA. Indication for iLA application was the need for intraoperative prolonged discontinuation of ventilation (tracheal surgery and lung resections after pneumonectomy [n = 6], and emergency procedures in patients with acute respiratory failure [n = 4]. The pumpless extracorporeal system was inserted percutaneously into the femoral blood vessels before surgery. Blood flow through the iLA, cardiac output, and gas exchange were monitored. RESULTS: In all patients, the surgical procedure was successfully performed because of the support by the pumpless iLA. Mean blood flow across the iLA was 1.58 +/- 0.3 L/min (1.2 L/min to 2.2 L/min). Low-dose norepinephrine was required to maintain sufficient systemic blood pressure. There was a moderate improvement in oxygenation (49 mL/min transfer of O(2)) and a very efficient elimination of carbon dioxide (121 mL/min transfer of CO(2)). Thus, extended periods of apneic oxygenation were possible during surgery. The device was removed immediately after surgery in 6 patients. In 4 patients with severe respiratory insufficiency, the iLA was continued for a mean of 6.8 days to allow for protective postoperative ventilation. CONCLUSIONS: The application of pumpless iLA was hemodynamically well tolerated, and allowed for safe procedures in respiratory compromised patients, avoiding the application and consequences of cardiopulmonary bypass or pump-driven extracorporeal membrane oxygenation. 2010 The Society of Thoracic Surgeons. Published by Elsevier Inc. All rights reserved.
BACKGROUND: For support of pulmonary function during complex thoracic surgical procedures, especially in respiratory compromised patients, a pumpless interventional lung assist (iLA) was applied. Feasibility and effectiveness for this novel indication were evaluated. METHODS: Ten patients underwent thoracic surgery with respiratory support by iLA. Indication for iLA application was the need for intraoperative prolonged discontinuation of ventilation (tracheal surgery and lung resections after pneumonectomy [n = 6], and emergency procedures in patients with acute respiratory failure [n = 4]. The pumpless extracorporeal system was inserted percutaneously into the femoral blood vessels before surgery. Blood flow through the iLA, cardiac output, and gas exchange were monitored. RESULTS: In all patients, the surgical procedure was successfully performed because of the support by the pumpless iLA. Mean blood flow across the iLA was 1.58 +/- 0.3 L/min (1.2 L/min to 2.2 L/min). Low-dose norepinephrine was required to maintain sufficient systemic blood pressure. There was a moderate improvement in oxygenation (49 mL/min transfer of O(2)) and a very efficient elimination of carbon dioxide (121 mL/min transfer of CO(2)). Thus, extended periods of apneic oxygenation were possible during surgery. The device was removed immediately after surgery in 6 patients. In 4 patients with severe respiratory insufficiency, the iLA was continued for a mean of 6.8 days to allow for protective postoperative ventilation. CONCLUSIONS: The application of pumpless iLA was hemodynamically well tolerated, and allowed for safe procedures in respiratory compromised patients, avoiding the application and consequences of cardiopulmonary bypass or pump-driven extracorporeal membrane oxygenation. 2010 The Society of Thoracic Surgeons. Published by Elsevier Inc. All rights reserved.
Authors: Don Hayes; Joseph D Tobias; Jasleen Kukreja; Thomas J Preston; Andrew R Yates; Stephen Kirkby; Bryan A Whitson Journal: Ann Thorac Med Date: 2013-07 Impact factor: 2.219