Use of the new preservation solution Custodiol-N supplemented with dextran for hypothermic machine perfusion of the kidney

Custodiol-N is a new preservation solution specifically designed to prevent free radical-induced tissue alterations and to protect vascular integrity of the graft. Thus, Custodiol-N appears particularly suitable as base solution for oxygenated machine preservation and its putative benefit for renal...

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Bibliographic Details
Published in:Cryobiology 2013-04, Vol.66 (2), p.131-135
Main Authors: Gallinat, Anja, Lüer, Bastian, Swoboda, Sandra, Rauen, Ursula, Paul, Andreas, Minor, Thomas
Format: Article
Language:English
Subjects:
Animals
Custodiol-N
Dextrans - metabolism
Kidney - blood supply
Kidney - physiology
Machine perfusion
Organ Preservation - methods
Organ Preservation Solutions - metabolism
Oxygen
Oxygen - metabolism
Perfusion - methods
Preservation
Renal Circulation
Swine
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Summary:Custodiol-N is a new preservation solution specifically designed to prevent free radical-induced tissue alterations and to protect vascular integrity of the graft. Thus, Custodiol-N appears particularly suitable as base solution for oxygenated machine preservation and its putative benefit for renal preservation by hypothermic machine perfusion (HMP) was investigated using a porcine in vitro model. Kidneys were retrieved from German Landrace pigs and preserved for 20h by pulsatile oxygenated HMP on a Lifeport kidney transporter (syst. pressure 30mmHg, 30cycles/min). Each graft was randomly assigned to the use of one of the following preservation solutions: Custodiol-N solution supplemented with 50g/l dextran 40 (CND) or kidney perfusion solution 1 (KPS-1). Renal viability was evaluated upon reperfusion in vitro with diluted autologous blood from the donor for 120min at 37°C. After 2h of postischemic reperfusion CND-preserved kidneys exhibited significantly higher renal blood flow and urine production. Oxygen consumption was also higher in the CND group than in KPS-1 kidneys. Clearance of creatinine increased during reperfusion of CND kidneys but declined in KPS-1 grafts ending in significantly higher values in CND kidneys. No differences between the groups were seen for enzyme release or fractional excretion of sodium. In conclusion the data presented provide first experimental evidence for adequate organ protective potential of CND in HMP as compared to the gold standard KPS-KPS-11.
ISSN:0011-2240
1090-2392
DOI:10.1016/j.cryobiol.2012.12.007