BackgroundA significant proportion of donation after circulatory death (DCD) kidneys are declined for transplantation because of concerns over their quality. Ex vivo normothermic machine perfusion (NMP) provides a unique opportunity to assess the quality of a kidney and determine its suitability for transplantation.MethodsIn phase 1 of this study, declined human DCD kidneys underwent NMP assessment for 60 min. Kidneys were graded 1–5 using a quality assessment score (QAS) based on macroscopic perfusion, renal blood flow and urine output during NMP. In phase 2 of the study, declined DCD kidneys were assessed by NMP with an intention to transplant them.ResultsIn phase 1, 18 of 42 DCD kidneys were declined owing to poor in situ perfusion. After NMP, 28 kidneys had a QAS of 1–3, and were considered suitable for transplantation. In phase 2, ten of 55 declined DCD kidneys underwent assessment by NMP. Eight kidneys had been declined because of poor in situ flushing in the donor and five of these were transplanted successfully. Four of the five kidneys had initial graft function.ConclusionNMP technology can be used to increase the number of DCD kidney transplants by assessing their quality before transplantation.
Ex vivo normothermic machine perfusion (NMP) of donor kidneys prior to transplantation provides a platform for direct delivery of cellular therapeutics to optimize organ quality prior to transplantation. Multipotent Adult Progenitor Cells (MAPC®) possess potent immunomodulatory properties that could minimize ischemia reperfusion injury. We investigated the potential capability of MAPC cells in kidney NMP. Pairs (5) of human kidneys, from the same donor, were simultaneously perfused for 7 hours. Kidneys were randomly allocated to receive MAPC treatment or control. Serial samples of perfusate, urine, and tissue biopsies were taken for comparison. MAPC‐treated kidneys demonstrated improved urine output (P = .009), decreased expression of injury biomarker NGAL (P = .012), improved microvascular perfusion on contrast‐enhanced ultrasound (cortex P = .019, medulla P = .001), downregulation of interleukin (IL)‐1β (P = .050), and upregulation of IL‐10 (P < .047) and Indolamine‐2, 3‐dioxygenase (P = .050). A chemotaxis model demonstrated decreased neutrophil recruitment when stimulated with perfusate from MAPC‐treated kidneys (P < .001). Immunofluorescence revealed prelabeled MAPC cells in the perivascular space of kidneys during NMP. We report the first successful delivery of cellular therapy to a human kidney during NMP. Kidneys treated with MAPC cells demonstrate improvement in clinically relevant parameters and injury biomarkers. This novel method of cell therapy delivery provides an exciting opportunity to recondition organs prior to transplantation.
Normothermic machine perfusion (NMP) is a novel clinical approach to overcome the limitations of traditional hypothermic organ preservation. NMP can be used to assess and recondition organs prior to transplant and is the subject of clinical trials in solid organ transplantation. In addition, NMP provides an opportunity to deliver therapeutic agents directly to the organ, thus avoiding many limitations associated with systemic treatment of the recipient. We report the delivery of oligonucleotide‐based therapy to human kidneys during NMP, in this case to target microRNA function (antagomir). An antagomir targeting mir‐24‐3p localized to the endothelium and proximal tubular epithelium. Endosomal uptake during NMP conditions facilitated antagomir co‐localization with proteins involved in the RNA‐induced silencing complex (RISC) and demonstrated engagement of the miRNA target. This pattern of uptake was not seen during cold perfusion. Targeting mir‐24‐3p action increased expression of genes controlled by this microRNA, including heme oxygenase‐1 and sphingosine‐1‐phosphate receptor 1. The expression of genes not under the control of mir‐24‐3p was unchanged, indicating specificity of the antagomir effect. In summary, this is the first report of ex vivo gymnotic delivery of oligonucleotide to the human kidney and demonstrates that NMP provides the platform to bind and block detrimental microRNAs in donor kidneys prior to transplantation.
Summary There has been increasing use of organs from extended criteria or donation after circulatory death donors to meet the demands of the transplant waiting list. Over the past decade, there has been considerable progress in technologies to preserve organs prior to transplantation to improve the function of these marginal organs. This has led to the development of normothermic machine perfusion, whereby an organ is perfused with warmed, oxygenated blood and nutrients to resume normal physiological function in an isolated ex‐vivo platform. With this advance in preservation comes significant opportunities to recondition, repair and regenerate organs prior to transplantation using cellular therapies. This review aims to discuss the possibilities of machine perfusion technology; highlighting the potential for organ‐directed reconditioning and the future avenues for investigation in this field.
| INTRODUC TI ONPancreas transplantation is a definitive treatment for type 1 diabetes mellitus, having a 85% success rate of insulin independence at 1 year. 1 Currently, the number of potential recipients for a pancreas transplant exceeds the number of ideal donors. It is well established that successful solid organ transplant outcomes are dependent on careful donor and recipient selection; however, there is increasing pressure to meet the needs of patients on growing waiting lists. To overcome this shortfall, considerable attempts have been made to increase the donor pool. A recent meta-analysis found that donors after circulatory death (DCD) had comparable graft and recipient outcomes to donor after brain death (DBD) pancreas transplantation, 2,3 but these are usually a highly selected cohort of often younger donors with minimal risk of a significant warm ischemic injury. Nevertheless, this suggests that pancreas transplants using carefully selected marginal donors may not have the morbidity often anticipated.This is an open access article under the terms of the Creative Commons Attribution-NonCommercial-NoDerivs License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non-commercial and no modifications or adaptations are made. AbstractSubstance abuse is unfortunately common in organ donors. Often, these organs are declined for transplant, not only because of concerns around blood-borne virus transmission but also because of perceived poor outcomes. In kidney transplantation, previous studies have demonstrated donor smoking status significantly impacts transplant outcome, but intravenous drug use or alcohol dependence does not. This study aims to clarify these issues in pancreas transplantation. Retrospective data on all UK solid organ pancreas transplants from 1994 to 2015 were obtained from the NHSBT UK Transplant Registry. The impact of illicit drug misuse, alcohol abuse, and smoking on graft and patient survival were analyzed using Kaplan-Meier plots and a Cox regression model. A total of 1175 of the 2317 (49.5%) donors were categorized as substance misusers. Univariate survival analysis revealed no significant impact of substance misuse on 10-year graft or patient survival. Multivariate analysis confirmed substance misuse was not associated with impaired graft or patient survival.A history of donor substance misuse does not negatively impact 10-year graft or patient survival following pancreas transplantation. This is a large national registry analysis with long-term follow-up data and should therefore provide clinicians with reassurance when considering pancreas grafts from substance misuse donors. K E Y W O R D Salcoholism and substance abuse, donors and donation, donors and donation: extended criteria
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