Optimizing resuscitation of the donation after circulatory death heart by mitochondrial protection in a female porcine model

Due to the shortage of donor organs, an increasing number of transplant organs are harvested after circulatory arrest (donation after circulatory death, DCD). Using a translational porcine DCD model, we developed and evaluated a protocol based on cardioprotection by multi-drug postconditioning to optimize resuscitation of DCD hearts by ex situ heart perfusion (ESHP). Hearts of female pigs (45.0±4.5 kg) were procured following a clinically identical DCD protocol, consisting of the termination of ventilator support and confirmation of circulatory arrest, followed by a 15-min standoff period. DCD hearts were randomly allocated to ESHP (38.4°C) in the absence (untreated, N=5) or presence (treated, N=5) of a postconditioning treatment added to the perfusate, consisting of Intralipid (1%), sevoflurane (2% v/v), and remifentanil (3 nM). All hearts were perfused with blood and Krebs-Henseleit solution (1:1) for 60 min in Langendorff mode and for additional 300 min in working mode for a total perfusion time of 6 hrs. Oxidative capacity and detailed left ventricular (LV) mechanical function under increasing workload (left atrial pressure 6-12 mmHg) were assessed hourly. LV tissue was snap-frozen at the end of ESHP and used for molecular analyses. LV inotropy (LVdP/dtmax) did not decline over time in treated DCD hearts and was significantly higher at the end of the protocol as compared with untreated DCD hearts (ΔLVdP/dtmax= 440 mmHg/s, p=0.009). Treated DCD hearts exhibited persistently higher LV stroke work index (LVSWI) during the 6-hr period of ESHP, whereas untreated DCD hearts displayed a significant decline (ΔLVSWI=-3.10 mL*mmHg/g, p(time within untreated group)