Bassam Redwan1, Stephan Ziegeler2, Stefan Freermann1, Liane Nique2, Michael Semik1, Mahyar Lavae-Mokhtari3, Thomas Meemann2, Nicolas Dickgreber3, Stefan Fischer4. 1. Department of Thoracic Surgery and Lung Support, Ibbenbueren General Hospital, Ibbenbueren, Germany. 2. Department of Anesthesiology and Intensive Care Medicine, Ibbenbueren General Hospital, Ibbenbueren, Germany. 3. Department of Respiratory Medicine and Thoracic Oncology, Ibbenbueren General Hospital, Ibbenbueren, Germany. 4. Department of Thoracic Surgery and Lung Support, Ibbenbueren General Hospital, Ibbenbueren, Germany s.fischer@klinikum-ibbenbueren.de.
Abstract
OBJECTIVES: Intraoperative extracorporeal lung support (ECLS) during thoracic surgical procedures is a modern concept that is gaining increasing acceptance. So far, cardiopulmonary bypass (CPB), veno-arterial extracorporeal membrane oxygenation (v-a-ECMO) or pumpless arterio-venous interventional lung assist (iLA) were utilized for intraoperative support. Only a few case reports have described the use of veno-venous ECMO for intraoperative ECLS. Here, we report our experience with intraoperative ECLS using different veno-venous low-flow and high-flow settings adapted to the individual patient requirements. METHODS: Between April 2014 and April 2015, 9 patients underwent pulmonary resections under ECLS. In 6 patients, a twin-port double-lumen cannula was inserted percutaneously into the right femoral vein for low-flow ECLS. In 3 patients, high-flow ECLS was achieved either by femoro-atrial (n = 1) or femoro-jugular cannulation. RESULTS: Indications for ECLS were severely impaired lung function (n = 3), previous pulmonary resections including contralateral pneumonectomy (n = 4), previous single-lung transplantation (sLTX) (n = 1) and extended carinal pneumonectomy (n = 1). Procedures included segmentectomy (n = 3), extended lobectomy with bronchial and vascular anastomoses (n = 1), VATS lobectomy (n = 2), extended left-sided carinal pneumonectomy (n = 1) as well as extended metastasectomy (n = 2). Low-flow ECLS allowed for apnoea up to 45 min in patients with previous pneumonectomy (n = 3) and facilitated protective single-lung ventilation in patients (n = 3) with severely impaired pulmonary function. During trans-sternal carinal pneumonectomy (n = 1), high-flow ECLS achieved by femoro-atrial cannulation allowed for apnoea for 40 min, avoiding cross-field ventilation. In 2 patients requiring extended metastasectomy after previous lobectomy of the contralateral lower lobe (n = 1) or pulmonary metastases in the graft after sLTX for end-stage fibrosis (n = 1), high-flow ECLS by percutaneous femoro-jugular cannulation allowed for extensive metastasectomy under optimal atelectasis of the lung. CONCLUSIONS: For intraoperative ECLS, different modes may be applied depending on the intended procedures and required mechanical ventilation. In our experience, different settings of veno-venous ECLS provide sufficient partial or complete lung support, avoiding possible complications associated with other forms of extracorporeal support such as CPB or v-a-ECMO.
OBJECTIVES: Intraoperative extracorporeal lung support (ECLS) during thoracic surgical procedures is a modern concept that is gaining increasing acceptance. So far, cardiopulmonary bypass (CPB), veno-arterial extracorporeal membrane oxygenation (v-a-ECMO) or pumpless arterio-venous interventional lung assist (iLA) were utilized for intraoperative support. Only a few case reports have described the use of veno-venous ECMO for intraoperative ECLS. Here, we report our experience with intraoperative ECLS using different veno-venous low-flow and high-flow settings adapted to the individual patient requirements. METHODS: Between April 2014 and April 2015, 9 patients underwent pulmonary resections under ECLS. In 6 patients, a twin-port double-lumen cannula was inserted percutaneously into the right femoral vein for low-flow ECLS. In 3 patients, high-flow ECLS was achieved either by femoro-atrial (n = 1) or femoro-jugular cannulation. RESULTS: Indications for ECLS were severely impaired lung function (n = 3), previous pulmonary resections including contralateral pneumonectomy (n = 4), previous single-lung transplantation (sLTX) (n = 1) and extended carinal pneumonectomy (n = 1). Procedures included segmentectomy (n = 3), extended lobectomy with bronchial and vascular anastomoses (n = 1), VATS lobectomy (n = 2), extended left-sided carinal pneumonectomy (n = 1) as well as extended metastasectomy (n = 2). Low-flow ECLS allowed for apnoea up to 45 min in patients with previous pneumonectomy (n = 3) and facilitated protective single-lung ventilation in patients (n = 3) with severely impaired pulmonary function. During trans-sternal carinal pneumonectomy (n = 1), high-flow ECLS achieved by femoro-atrial cannulation allowed for apnoea for 40 min, avoiding cross-field ventilation. In 2 patients requiring extended metastasectomy after previous lobectomy of the contralateral lower lobe (n = 1) or pulmonary metastases in the graft after sLTX for end-stage fibrosis (n = 1), high-flow ECLS by percutaneous femoro-jugular cannulation allowed for extensive metastasectomy under optimal atelectasis of the lung. CONCLUSIONS: For intraoperative ECLS, different modes may be applied depending on the intended procedures and required mechanical ventilation. In our experience, different settings of veno-venous ECLS provide sufficient partial or complete lung support, avoiding possible complications associated with other forms of extracorporeal support such as CPB or v-a-ECMO.
Authors: Tara Talaie; Laura DiChiacchio; Nikhil K Prasad; Chetan Pasrija; Walker Julliard; David J Kaczorowski; Yunge Zhao; Christine L Lau Journal: Transplant Direct Date: 2021-01-07