A Novel Dual Ex Vivo Lung Perfusion Technique Improves Immediate Outcomes in an Experimental Model of Lung Transplantation

The lungs are dually perfused by the pulmonary artery and the bronchial arteries. This study aimed to test the feasibility of dual‐perfusion techniques with the bronchial artery circulation and pulmonary artery circulation synchronously perfused using ex vivo lung perfusion (EVLP) and evaluate the effects of dual‐perfusion on posttransplant lung graft function. Using rat heart‐lung blocks, we developed a dual‐perfusion EVLP circuit (dual‐EVLP), and compared cellular metabolism, expression of inflammatory mediators, and posttransplant graft function in lung allografts maintained with dual‐EVLP, standard‐EVLP, or cold static preservation. The microvasculature in lung grafts after transplant was objectively evaluated using microcomputed tomography angiography. Lung grafts subjected to dual‐EVLP exhibited significantly better lung graft function with reduced proinflammatory profiles and more mitochondrial biogenesis, leading to better posttransplant function and compliance, as compared with standard‐EVLP or static cold preservation. Interestingly, lung grafts maintained on dual‐EVLP exhibited remarkably increased microvasculature and perfusion as compared with lungs maintained on standard‐EVLP. Our results suggest that lung grafts can be perfused and preserved using dual‐perfusion EVLP techniques that contribute to better graft function by reducing proinflammatory profiles and activating mitochondrial respiration. Dual‐EVLP also yields better posttransplant graft function through increased microvasculature and better perfusion of the lung grafts after transplantation.