“…In a pig lung transplant model in which donor lungs were injured by endotoxin administration, cytokine adsorption 75 Reperfusion FiO 2 <40% Lower ROS-induced lipid peroxidation and less PGD Shaver et al 76 Reperfusion FiO 2 <40% Higher reperfusion FiO 2 (95%) amplified CFH-mediated injury Ghaidan et al 77 Cytokine adsorption during EVLP in a pig model Improved graft function after transplant Lin et al 78 Alpha-1 antitrypsin treatment during EVLP in a pig model Lower injury marker levels and better graft function Motoyama et al 79 Plasmin treatment during EVLP in a rat model Improved physiological parameters and less histologic injury Keshavjee et al 80 TP-10 (complement inhibitor) in RCT Shorter duration of mechanical ventilation posttransplant Sommer et al 81 C1-esterase inhibitor in a clinical trial for PGD Better oxygenation, shorter ICU stay, and trend toward longer survival Emaminia et al 41,82 Adenosine A 2A agonism during EVLP in a pig model Less edema and better oxygenation with lower airway pressures Noda et al 83 Hydrogen gas during EVLP in a rat model Better graft function, downregulated IL-6, IL-1β, and TNF-α transcripts Inci et al 84 Surfactant instillation in a pig transplant model Better oxygenation and less neutrophil infiltration Inci et al 85 Surfactant instillation during EVLP in a pig model Better graft function, less pulmonary edema, and less BAL neutrophilia treatment during EVLP resulted in lower proinflammatory cytokine levels in perfusate, better graft function, and fewer histologic signs of injury in treated versus untreated lungs. 77 Alpha-1 antitrypsin is known to possess immunomodulatory properties, and when used to treat pig lungs on EVLP after a 24-h cold ischemic period, the physiological parameters were better in the treated lungs, and inflammation marker levels were lower. 78 As discussed in the Molecular Mechanisms section above, activating the coagulation and complement systems after ischemia-reperfusion contributes to PGD.…”