Development of an Automatic Regulated Normothermic Kidney Preservation Device for Long-Term Organ Perfusion.

A. Weissenbacher,¹ O. Boubriak,² L. Lo Faro,¹ R. Ploeg,¹ J. Hunter,¹ D. Voyce,³ N. Mikov,³ A. Cook,³ C. Coussios,² P. Friend.¹

¹Nuffield Department of Surgical Sciences, Oxford Transplant Centre, University of Oxford, Oxford, United Kingdom
²Department of Engineering Science, Institute of Biomedical Engineering, University of Oxford, Oxford, United Kingdom
³OrganOx Limited, Magdalen Centre, Oxford Science Park, Oxford, United Kingdom

Meeting: 2017 American Transplant Congress

Abstract number: A259

Keywords: Donors, Kidney, Machine preservation, marginal, Preservation

Session Information

Session Name: Poster Session A: Organ Preservation and Reperfusion

Session Type: Poster Session

Date: Saturday, April 29, 2017

Session Time: 5:30pm-7:30pm

Presentation Time: 5:30pm-7:30pm

Location: Hall D1

Background

Normothermic kidney perfusion for a period of 24 hours or longer would offer significant clinical advantages. It would enable clinicians to investigate the condition of renal parenchyma during the warm preservation period and provide a platform for repairing/reconditioning kidneys that are currently discarded. This would enlarge the donor pool and enable more successful renal transplants.

Methods

We have established an automatically-regulated closed-circuit normothermic kidney perfusion prototype, with the objective of perfusing human kidneys for 24 hours. The kidney device is based on the liver perfusion method previously developed by our team together with Organox®Limited. We have used human kidneys declined by all transplant centers to develop and test the perfusion device.

Results

19 discarded human kidneys from DBD (donation after brain death) and DCD (donation after cardiac death) donors have been perfused, providing evidence of stable and physiological functional parameters. Cold ischemia time (CIT) was significantly longer in DCD kidneys compared to DBD kidneys; p=0.033. Measured biochemical parameters, included glucose, lactate and anti-Xa levels. All but one perfused kidneys showed clear evidence of glucose consumption. Previously validated biomarkers were tested: in the shorter CIT group (<1518 min), NGAL showed a significant change between hours 1 and 24; p=0.0144. KIM-1 was different in the short CIT group at time points 12 and 24 hours compared to hour 1; p=0.047 and 0.0077. In the group of kidneys which produced less than 460ml of urine, the NGAL expression was significantly higher over time; p=0.0178. Similarly for KIM-1: in the group <460ml of urine, KIM-1 expression was significantly higher over time; p=0.0010. There was no difference in L-FABP expression.

Conclusion

Automated normothermic kidney perfusion for at least 24 hours was shown to be feasible, with the ability to measure biomarkers that might reliably indicate viability in otherwise marginal donor organs. Clinical studies are now needed to demonstrate the clinical utility of this technology.

CITATION INFORMATION: Weissenbacher A, Boubriak O, Lo Faro L, Ploeg R, Hunter J, Voyce D, Mikov N, Cook A, Coussios C, Friend P. Development of an Automatic Regulated Normothermic Kidney Preservation Device for Long-Term Organ Perfusion. Am J Transplant. 2017;17 (suppl 3).

To cite this abstract in AMA style:

Weissenbacher A, Boubriak O, Faro LLo, Ploeg R, Hunter J, Voyce D, Mikov N, Cook A, Coussios C, Friend P. Development of an Automatic Regulated Normothermic Kidney Preservation Device for Long-Term Organ Perfusion. [abstract]. Am J Transplant. 2017; 17 (suppl 3). https://atcmeetingabstracts.com/abstract/development-of-an-automatic-regulated-normothermic-kidney-preservation-device-for-long-term-organ-perfusion/. Accessed November 22, 2024.

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