Kidney transplantation surgery is an accepted form of therapy for patients with end stage renal disease, and over 8,000 surgeries are performed each year in the USA. Lack of donor organs, rejection, and preservation/reperfusion injury are the main obstacles to overcome in kidney transplantation. Preservation reperfusion injury leads to delayed graft function (DGF) requiring postoperative hemodialysis which adds additional cost to the procedure and results in reduced long-term survival of kidneys (5 to 10 years). During our previous period of support we developed a new preservation solution (one for cold storage and one for machine perfusion) for the kidney and other organs. These solutions improved dramatically the quality and duration of kidney (and other organ) preservation. We identified some of the problems with kidney preservation including microvascular injury as well as renal tubular injury related to calcium and possibly phospholipid (arachidonic acid) metabolism. Our underlying hypothesis in this proposal is that microvascular injury may be a primary cause of renal injury upon reperfusion. Our overall goal is to understand the cellular and biochemical mechanisms underlying preservation/reperfusion injury to the kidney and to develop more effective preservation methods.
Our specific aims are: l) to understand changes in the microvascular system of the preserved kidney using blood and erythrocyte models of the isolated perfused rabbit kidney; 2) to understand the relationship between phospholipid metabolism (hydrolysis and reacylation) and eicosanoid production and microvascular and tubular changes during preservation or reperfusion; 3) to understand how endothelial cells and tubular cells are injured by hypothermic preservation and reperfusion using isolated endothelial and tubular cells; 4) to study how various agents and drugs affect the quality of preservation of rabbit organs and isolated cells as related to proposed mechanisms of injury; 5) to use the clinically relevant dog kidney autotransplant model to test new and improved methods of kidney preservation derived from specific aims 1-4. These studies will provide new and useful information for understanding the pathogenesis of delayed graft function in the kidney. The new information generated will lead to better renal preservation, reduced cost, and better long-term graft survival in human kidney transplantation therapy.

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project (R01)
Project #
5R01DK018624-22
Application #
2391306
Study Section
Surgery, Anesthesiology and Trauma Study Section (SAT)
Project Start
1979-04-01
Project End
1999-03-31
Budget Start
1997-04-01
Budget End
1998-03-31
Support Year
22
Fiscal Year
1997
Total Cost
Indirect Cost
Name
University of Wisconsin Madison
Department
Surgery
Type
Schools of Medicine
DUNS #
161202122
City
Madison
State
WI
Country
United States
Zip Code
53715
Knes, Jane M; Hansen, Thomas N; Gilligan, Barbara et al. (2005) Loss of endothelium-dependent relaxation in abdominal aorta preserved in a co-storage system. Transpl Int 17:699-706
Gilligan, Barbara J; Woo, Heung M; Kosieradzki, Maciej et al. (2004) Prolonged hypothermia causes primary nonfunction in preserved canine renal allografts due to humoral rejection. Am J Transplant 4:1266-73
Mangino, Martin J; Ametani, Mary; Szabo, Csaba et al. (2004) Poly(ADP-ribose) polymerase and renal hypothermic preservation injury. Am J Physiol Renal Physiol 286:F838-47
Southard, J H; Knes, J M; Wang, H et al. (2001) Loss of No-induced relaxation in abdominal aorta preserved in a Co-culture system. Transplant Proc 33:855-6
Lindell, S; Nobel, M; Rankin, M et al. (1998) Optimal pH for simple cold storage or machine perfusion of dog kidneys with UW solution. Transpl Int 11:208-11
Hansen, T N; D'Alessandro, A; Southard, J H (1997) Long-term cold ischemia reduces nitric oxide metabolism in reperfused rabbit kidneys. Transplant Proc 29:3417-9
Southard, J H (1997) Improving early graft function: role of preservation. Transplant Proc 29:3510-1
Ametani, M S; D'Alessandro, A M; Southard, J H (1997) The effect of calcium in the UW solution on preservation of the rat liver. Ann Transplant 2:34-8
Hansen, T N; D'Alessandro, A; Southard, J H (1997) Reduced renal vascular injury following warm ischemia and preservation by hypothermic machine perfusion. Transplant Proc 29:3577-9
Stubenitsky, B M; Ametani, M; Danielewicz, R et al. (1995) Regeneration of ATP in kidney slices after warm ischemia and hypothermic preservation. Transpl Int 8:293-7

Showing the most recent 10 out of 29 publications