The purpose of this project is to compare the effect of oxygenated preservation of the pancreas before transplantation using the "Two-Layer Method" (TLM) against outcomes previously experienced with organs preserved using only standard University of Wisconsin (UW) storage solution. It is our hypothesis that TLM preservation will reduce the frequency and severity of complications of pancreas transplantation, increase the number of organs acceptable for transplantation, and spare individual patients and their families suffering and hardship.
Two-Layer Method (TLM) preservation consists of a storage chamber containing a layer of highly oxygenated, water-immiscible liquid perfluorocarbon (perfluorodecalin, C10F18) surmounted by a layer of conventional UW (or similar) organ preservation solution. The perfluorocarbon is sufficiently dense (\~2 g/ml) that the pancreas floats on top of it, in contact with both layers. The perfluorocarbon combines low toxicity with an oxygen content 75 times greater than the UW solution used in standard pancreas storage. When preserved under these conditions, the pancreas absorbs oxygen by diffusion and steadily consumes it, supporting sufficient aerobic metabolism to maintain tissue ATP concentrations at near-physiologic levels and prevent, or even reverse, pancreas anoxic injury. In animal models of pancreas ischemic and storage injury, TLM preservation has been strikingly successful at improving the outcome of both islet isolation and pancreas transplantation.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
PREVENTION
Masking
NONE
Enrollment
7
Preserving the pancreas before transplantation in an oxygenated system containing highly oxygenated liquid perfluorocarbon (perfluorodecalin, C10F18. The perfluorocarbon combines low toxicity with a capacity to dissolve 75 times more oxygen than the UW solution used in standard pancreas storage. When preserved under these conditions, the pancreas absorbs oxygen by diffusion and steadily consumes it, supporting sufficient aerobic metabolism to maintain tissue ATP concentrations at near-physiologic levels and prevent, or even reverse, pancreas anoxic injury.
Preserving the pancreas before transplantation in an oxygenated system containing highly oxygenated liquid perfluorocarbon (perfluorodecalin, C10F18. The perfluorocarbon combines low toxicity with a capacity to dissolve 75 times more oxygen than the UW solution used in standard pancreas storage. When preserved under these conditions, the pancreas absorbs oxygen by diffusion and steadily consumes it, supporting sufficient aerobic metabolism to maintain tissue ATP concentrations at near-physiologic levels and prevent, or even reverse, pancreas anoxic injury.
The Nebraska Medical Center
Omaha, Nebraska, United States
Post-transplantation adverse event frequency
Post-transplantation adverse event frequency (graft thrombosis, hemorrhage, peri-pancreatic abscess, re-laparotomy, cadaver duodenum leak, pseudo-aneurysm formation, rejection, graft failure, patient death)
Time frame: 1 year
Standard post-transplantation morbidity endpoints
Standard post-transplantation morbidity endpoints including fungal, bacterial, and viral infections, and incidence and rate of stroke and heart attack. Length of hospital stay and re-admission and re-operation rates will also be monitored.
Time frame: 1 year
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