Donor Heart Preservation by Hypothermic Ex Vivo Perfusion - Improved Recipient Survival and Successful Prolongation of Ischemic Time

2021 
Purpose Cold static storage (CSS) is the standard method for heart preservation during transplantation (HTx). However, CSS beyond 4 hours increases the risk of primary graft dysfunction (PGD). Hypothermic ex vivo perfusion (HEVP) of donor hearts allows oxygen delivery during preservation, and may facilitate extended donor preservation without increasing PGD risk. We compared post-HTx survival, systemic inflammation and cardiac function following donor heart preservation by CSS (2 hrs) versus HEVP (2 and 8 hrs). Methods Brain death was induced in donor sheep for 24 hrs. Donor hearts were preserved by a) CSS for 2 hrs (n=7), b) HEVP for 2 hrs (n=4), or c) HEVP for 8 hrs (n=4). Orthotopic HTx was performed in matched recipients. Recipients were weaned from cardiopulmonary bypass and monitored for 6 hrs. Recipient blood was collected and assayed for inflammatory cytokines and cardiac markers. Cardiac function was assessed by echocardiography. Results Six-hour survival was 71% following CSS, and 100% following 2 and 8 hrs HEVP, respectively. Recipients systemic interleukin-6 and 8 levels were reduced using HEVP vs CSS. Post-HTx haemodynamic function was no different between groups, but HEVP reduced the requirement for vasoactive support compared to CSS (2 hrs CSS: 1.57±0.7; 2 hrs HEVP: 0.35±0.09; 8 hrs HEVP: 0.35±0.05 mmHg−1). HEVP was associated with reduced post-HTx lactate (2 hrs CSS: 11.4±1.8; 2 hrs HEVP: 5.2±0.7; 8 hrs HEVP: 6.7±1.3 mmol/L), more stable base excess and physiological pH in blood. Post-HTx cardiac function was no different between groups. Cardiac troponin I levels were comparable between CSS vs. 8 hrs HEVP, but reduced with 2 hrs HEVP. Conclusion Preliminary data on donor heart preservation by HEVP shows promising outcomes in comparison to CSS. Heart preservation by HEVP can be extended up to 8 hours, without compromising post-HTx recipient survival. HEVP may assist in overcoming limitations in preservation time associated with HTx, without increasing PGD risk.
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