Role of Sodium Nitroprusside in the Improvement of Rat Liver Preservation in University of Wisconsin Solution: A Study in the Isolated Perfused Liver Model

Background. Long-term liver preservation is needed to transform liver transplantation from an emergency operation into an elective procedure and, therefore, to improve the results of liver transplantation. Aims. We have studied the possibility of extending the period of cold ischemia of the rat live...

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Bibliographic Details
Published in:The Journal of surgical research 1999-12, Vol.87 (2), p.201-208
Main Authors: Rodriguez, Joaquı́n V., Guibert, Edgardo E., Quintana, Alejandra, Scandizzi, Angel, Almada, Luciana
Format: Article
Language:English
Subjects:
Adenosine - pharmacology
Allopurinol - pharmacology
Animals
Bile - secretion
Biological and medical sciences
cold ischemia
cold preservation
Cold Temperature
Endothelin-1 - physiology
Glutathione - pharmacology
Hemodynamics
Insulin - pharmacology
isolated perfused liver
Liver - drug effects
Liver - pathology
Liver - physiology
Liver, biliary tract, pancreas, portal circulation, spleen
Male
Medical sciences
Nitric Oxide - physiology
Nitroprusside - pharmacology
Organ Preservation
Organ Preservation Solutions
Perfusion
Raffinose - pharmacology
Rats
Rats, Wistar
sodium nitroprusside
Surgery (general aspects). Transplantations, organ and tissue grafts. Graft diseases
Surgery of the digestive system
University of Wisconsin solution
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Summary:Background. Long-term liver preservation is needed to transform liver transplantation from an emergency operation into an elective procedure and, therefore, to improve the results of liver transplantation. Aims. We have studied the possibility of extending the period of cold ischemia of the rat liver, maintaining good hemodynamics and functional conditions, by adding the NO donor sodium nitroprusside (NPNa) to the preservation solution. Materials and Methods. Rat livers were preserved for 24, 48, and 72 h in University of Wisconsin solution (UW) at 4°C (groups I, II, and III) or UW to which 500 μM NPNa was added (groups IV, V, and VI). Following the preservation time, liver viability was assessed using the isolated perfused liver model. Lactate dehydrogenase (LDH) and K+ release, bile flow, and portal resistance were evaluated in each group and compared with those of liver controls (group VII) excised and perfused without preservation. Results. Some deleterious effects can be seen during cold storage conditions as assessed by an increment in intrahepatic resistance and a diminution in the capacity of the organ to produce bile. On histological observation, we see vacuolated hepatocytes and free endothelial cells (detached) in the sinusoidal lumen. Addition of 500 μM NPNa to UW significantly moderates these injuries, with an improvement in intrahepatic circulation (less intrahepatic resistance), an increment in bile production, and better histological appearance of the organ. We were also able to determine the capacity of the UW + NPNa to produce NO. Conclusion. We assume that the beneficial vascular effects of NPNa are mediated by NO production.
ISSN:0022-4804
1095-8673
DOI:10.1006/jsre.1999.5750