Jean Carlo Kohmann, Ubirajara Lima e Silva, Gabriel Madke, Eduardo Sperb Pilla, José Carlos Felicetti, José de Jesus Peixoto Camargo, Paulo Ivo Homem de Bittencourt, Paulo Francisco Guerreiro Cardoso
J Bras Pneumol.1999;25(2):78-83
Lung retrieval following cardio-circulatory arrest has been studied experimentally, however severe ischemia/reperfusion injury requires improved methods of graft preservation. Allograft perfusion with crystalloid solution delivered via pulmonary artery (antegrade perfusion) remains the standard procedure, however it does not provide adequate washout of the blood retained within the bronchial circulation which may trigger reperfusion injury. This has led the authors to test the impact of antegrade versus retrograde (via left atrium) perfusion of lung grafts submitted to 3 hours of warm ischemia after cardio-circulatory arrest in a dog model of left lung allotransplantation. Twelve donor dogs were sacrificed with thiopental sodium and kept under mechanical ventilation at room temperature for 3 hours. They were randomized and the heart-lung blocks harvested after being perfused in a retrograde (group I, n = 6) or antegrade (group II, n = 6) fashion with modified Euro-Collins solution. Twelve recipient animals were submitted to a left lung transplant receiving the grafts from both groups and the assessment was performed during 6 hours. Hemodynamic parameters were similar for animals in both groups. The gas exchange (arterial PaO2 and PaCO2) in recipients of group I (retrograde perfusion) was significantly better when compared to recipients of grafts perfused via pulmonary artery. Intracellular ATP did not show difference between the groups, however there was a measurable drop in its values when samples obtained upon extraction were compared to those measured after reperfusion and at the end of the assessment. The authors concluded that retrograde perfusion yields better pulmonary function after 6 hours of reperfusion in this animal model of left lung allotransplantation following 3 hours of normothermic ischemia under mechanical ventilation.
Keywords: Lung. Ischemia. Preservation. Retrograde perfusion. ATP.