Subnormothermic Ex Vivo Porcine Kidney Perfusion Improves Energy Metabolism: Analysis Using P Magnetic Resonance Spectroscopic Imaging

Overview

Journal Transplant Direct

Publisher Wolters Kluwer

Specialty General Surgery

Date 2022 Sep 30

PMID 36176724

Authors

Thomas Agius

Julien Songeon

Antoine Klauser

Florent Allagnat

Gregoire Longchamp

Raphael Ruttimann

Arnaud Lyon

Julijana Ivaniesevic

Raphael Meier

Sebastien Deglise

James F Markmann

Korkut Uygun

Leo Buhler

Christian Toso

Jean-Marc Corpataux

Francois Lazeyras

Alban Longchamp

Affiliations

Soon will be listed here.

Abstract

Methods: To mimic donation after circulatory death procurement, kidneys from 45-kg pigs underwent 60 min of warm ischemia. Kidneys were then perfused ex vivo for 4 h with Belzer machine perfusion solution UW at 22 °C or at 4 °C before transplantation. Magnetic resonance spectroscopic imaging coupled with LCModel fitting was used to assess energy metabolites. Kidney perfusion was evaluated with dynamic-contrast enhanced MRI. Renal biopsies were collected at various time points for histopathologic analysis.

Results: Total adenosine triphosphate content was 4 times higher during ex vivo perfusion at 22 °C than at 4 °C perfusion. At 22 °C, adenosine triphosphate levels increased during the first hours of perfusion but declined afterward. Similarly, phosphomonoesters, containing adenosine monophosphate, were increased at 22 °C and then slowly consumed over time. Compared with 4 °C, ex vivo perfusion at 22 °C improved cortical and medullary perfusion. Finally, kidney perfusion at 22 °C reduced histological lesions after transplantation (injury score: 22 °C: 10.5 ± 3.5; 4 °C: 18 ± 2.25 over 30).

Conclusions: Ex vivo kidney perfusion at 22°C improved graft metabolism and protected from ischemia-reperfusion injuries upon transplantation. Future clinical studies will need to define the benefits of subnormothermic perfusion in improving kidney graft function and patient's survival.

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