Background: Hypothermic oxygenated machine perfusion improves outcomes in Liver Transplantation, but application is limited as O2 is supplied by a stationary circuit. A novel technique of O2 "pre-charge" in a portable pump would broaden use and further mitigate ischemia damage from organ transport.
Methods: Porcine DCD livers were randomized to static cold storage (SCS, n = 8) or hypothermic machine perfusion (HMP). HMP was stratified into HMP-O2 (n = 5), non-O2 open to air HMP-RA (n = 5), and non-O2 with sealed lids or no air HMP-NA (n = 5). HMP-O2 was "pre-charged" using 100% O2 delivered at 10 L/min over 15 min. Perfusate and tissue O2 tension (pO2), liver biopsies, and fluid chemistries were analyzed.
Results: "Pre-charge" achieves sustained tissue and perfusate pO2 vs others. HMP-O2 results in decreased markers of hepatocyte injury: ALT (p < 0.05) and LDH (p < 0.05), lower expression of CRP and higher expression of SOD1 vs SCS. This suggests decreased inflammation and improved ROS scavenging.
Conclusions: "Pre-charge" is an effective technique, which allows portability and transport without an O2 source and improves graft parameters.
Keywords: Ex vivo perfusion; Hypothermic machine perfusion; Hypothermic oxygenated machine perfusion; Ischemia/reperfusion injury; Liver graft preservation; Liver transplantation.
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