Oxygenated Machine Preservation in Kidney Transplantation (SNOPO)

Kidney transplantation remains the treatment of choice for patients suffering from end-stage renal disease. To combat the ever-increasing waiting list, higher risk organs, including those from donation after circulatory death (DCD) donors, and older donors are being transplanted more frequently. However, organs from these donors are more susceptible to damage during the transplant procedure known as ischemia-reperfusion injury (IRI) and show worse outcomes post-transplant such as increased rates of primary non-function, delayed graft function and early graft loss. Therefore, strategies to mitigate IRI are of great interest to improve transplant outcomes. One method of interest is modification of organ storage techniques during the transplant process.

The current standard of care for organ preservation is static cold storage or hypoxic hypothermic pulsatile perfusion of the donor organ. Our pre-clinical studies in a porcine DCD transplant model indicate that perfusion at room temperature is capable of significantly reducing kidney inflammation and damage during the transplant process compared to cold storage and normothermic perfusion. While other trials have looked at hypothermic and normothermic perfusion, to the best of our knowledge there has not been a trial to evaluate subnormothermic perfusion of kidneys.

The study intervention will consist of ex vivo perfusion of donor kidneys using a clinical pulsatile pump modified with an oxygen delivery unit developed by our laboratory. Once organs arrive at the transplant centre they will be attached to the pump by the transplant surgery team and/or perfusionist. Prior to placement on pump, a baseline tissue sample of the kidney will be taken via needle core biopsy. Kidneys will be perfused with a preservation solution composed of a bloodless oxygen carrier. Organs will be perfused for 1-10 hours depending on the clinical timeline of the transplant. The kidney will be transplanted into the recipient as per clinical standard. After reperfusion of the kidney in the recipient, another study tissue sample will be collected via needle core biopsy. Pre-implantation and post-perfusion baseline biopsies are performed as clinical standards, but a small sample of the biopsy specimen will be stored for analysis in our laboratory. Study participants (n=15) will be followed for 1 year post-transplant and their graft function will be assessed using standard clinical parameters.

The goal of this study is to determine the feasibility and preliminary safety of subnormothermic perfusion. Feasibility will be assessed by ease of implementation of study procedures and recruitment rate. Safety will be determined from rate of graft discard attributed to study intervention, graft function and technical limitations of the study intervention.