(701.5) Hypothermic Ex Vivo Perfusion of Donor Hearts can Safely Preserve Post-transplant Cardiac Function in Sheep for 8 Hours
Monday, April 4, 2022
10:00 AM – 12:00 PM
Location: Exhibit/Poster Hall A-B - Pennsylvania Convention Center
Poster Board Number: B149
Louise See Hoe (University of Queensland, University of Queensland), Mahe Bouquet (University of Queensland, University of Queensland), Kieran Hyslop (University of Queensland, University of Queensland), Margaret Passmore (University of Queensland, University of Queensland), Matthew Wells (Griffith University, Griffith University), Kei Sato (University of Queensland, University of Queensland), Emily Wilson (University of Queensland, University of Queensland), Karin Wildi (University of Queensland, University of Queensland), Kris Skeggs (Princess Alexandra Hospital), Chiara Palmeri (University of Queensland), Janice Reid (University of Queensland), Hollier ONeill (University of Queensland, University of Queensland), Nicole Bartnikowski (Queensland University of Technology, Queensland University of Technology, Queensland University of Technology), Jae-Seung Jung (Korea University, Korea University), Carmen Ainola (University of Queensland, University of Queensland), Gabriella Abbate (University of Queensland, University of Queensland), Sebastiano Colombo (University of Queensland, University of Queensland), Nchafatso Obonyo (University of Queensland, University of Queensland), Charles McDonald (University of Queensland, University of Queensland), Tristan Shuker (University of Queensland, University of Queensland), Silver Heinsar (University of Queensland, University of Queensland), Andrew Haymet (University of Queensland, University of Queensland), Sanne Pedersen (Prince Charles Hospital), Peter Molenaar (Queensland University of Technology, Queensland University of Technology), Gianluigi Li Bassi (University of Queensland, University of Queensland), Jacky Suen (University of Queensland, University of Queensland), David McGiffin (Alfred Hospital, Alfred Hospital, Alfred Hospital), John Fraser on behalf of Dead Heart Project (University of Queensland, University of Queensland)
Presenting Author University of Queensland, University of Queensland
Introduction: Heart transplantation (HTx) is the primary therapy for end-stage heart failure. For HTx, donor hearts are typically preserved on ice in a cooler (devoid of oxygen), termed cold static storage (CSS). CSS beyond 4 hrs increases the risk of primary graft dysfunction (PGD), the leading cause of early death post-HTx. Hypothermic ex vivo perfusion (HEVP) of donor hearts allows oxygen delivery during preservation, and we hypothesise, may safely extend donor heart preservation time without increasing PGD risk. We sought to compare post-HTx recipient survival, cardiac contractility, mitochondrial function, and injury following donor heart preservation by CSS (2 hrs) or HEVP (2 and 8 hrs).
Methods: Brain death was induced in donor sheep for 24 hrs, hearts were then preserved by a) CSS for 2 hrs (n=8), b) HEVP for 2 hrs (n=6), or c) HEVP for 8 hrs (n=7). Orthotopic HTx was performed in matched recipients, with progressive hemodynamic management and monitoring for 6 hrs post-HTx. Recipient cardiac function was assessed by echocardiography, and troponin I levels were measured in plasma. Mitochondrial function, in vitro contractile responses to noradrenaline (trabeculae), and histopathological changes were determined in cardiac tissue collected at end-study.
Results: All HEVP recipients survived to 6 hrs post-HTx, compared to 6/8 CSS recipients. HEVP (2 and 8 hrs) recipients required less vasoactive support for adequate hemodynamic function, and exhibited reduced blood lactate levels compared to CSS. Post-HTx cardiac function and troponin I levels were comparable between groups over time, however improved contractile responses to noradrenaline were observed in isolated trabeculae from 2 and 8 hr HEVP hearts. Cardiac mitochondrial function was similar between all groups, except for the 2 hrs HEVP left ventricle, where greater improvements in mitochondrial membrane potential generation were observed. Regardless of preservation technique, histological scores revealed widespread cardiac injury (e.g. myocytolysis and neutrophil infiltration).
Conclusion: Donor heart preservation by HEVP shows promising post-HTx outcomes in comparison to CSS in a sheep HTx model. HEVP can be safely extended up to 8 hrs, without compromising post-HTx recipient survival, cardiac contractile or mitochondrial function. HEVP may assist in overcoming limitations in preservation time associated with HTx, without increasing PGD risk. The Australian Non-Ischemic Heart Preservation (NIHP) trial is currently assessing extended HEVP in clinical HTx (ACTRN12620000595910p).
