Abstract 12689: Electron Transport Chain Inhibition to Decrease Reperfusion Injury in Transplanted Donation After Circulatory Death Rat Hearts

Abstract

Introduction: Intrinsic to the donation after circulatory death (DCD) donation is ischemia and reperfusion injury, primarily mediated through release of reactive oxygen species (ROS) from the damaged mitochondria. Amobarbital (AMO) is a transient, reversible inhibitor of complex I known to decrease ROS generation. We studied whether AMO treatment during reperfusion can improve function in transplanted DCD hearts. Methods: Sprague Dawley rats, were assigned to four heart donor groups- DCD or DCD+AMO and control beating-heart donor (CBD) or CBD+AMO (n=6-8 each). Donor rats were anesthetized using ketamine/xylazine, intubated and connected to a ventilator. The carotid access was used to deliver heparin (1000 U/kg) and vecuronium bromide (4 mg/kg) to paralyze diaphragmatic muscles. The DCD process was initiated by disconnecting the ventilator. Donor hearts were procured following 25 minutes of in-vivo ischemia in the DCD groups, while CBD hearts were procured without terminating the ventilation. At procurement, after clamping the aortic arch, all donor hearts received 10 ml of University of Wisconsin cardioplegia solution delivered through the carotid cannula. The CBD+AMO and DCD+AMO groups received AMO (2 mM), dissolved in the cardioplegia. Heterotopic heart transplantation was performed in recipient rat’s abdomen. After 14 days the transplanted heart function was measured with a balloon tip catheter. Results: Compared to CBD hearts, DCD hearts had significantly lower developed pressure, the rate pressure product (developed pressure times heart rate), and negative dP/dt indicating decreased contractile and impaired diastolic function (Figure). AMO treatment of the DCD hearts resulted in significantly improved cardiac function compared to the untreated DCD hearts. Conclusions: A single treatment with AMO during the heart procurement improves the transplanted DCD heart function which was comparable to the control CBD hearts.