H E Tomalty1, E F Hamilton1, A Hamilton2, O Kukal3, T Allen4, V K Walker5. 1. Department of Biology, Queen's University, Kingston, Ontario, Canada. 2. Department of Surgery, Queen's University, Kingston, Ontario; CryoStasis Ltd., Westport, Ontario, Canada. 3. Department of Biology, Queen's University, Kingston, Ontario; CryoStasis Ltd., Westport, Ontario, Canada. 4. CryoStasis Ltd., Westport, Ontario, Canada. 5. Department of Biology; Department of Biomedical and Molecular Sciences, Queen's University, Kingston, Ontario, Canada. walkervk@queensu.ca.
Abstract
BACKGROUND: Contemporary kidney preservation methods involve storing at 4 degree C up to 24 h prior to transplantation. By decreasing the storage temperature to below 0 degree C, we hypothesized that the safe storage time could be significantly lengthened. OBJECTIVE: The efficacy of a proprietary CryoStasis (CrS) storage solution for the subzero preservation of kidneys was tested, with or without addition of a hyperactive insect antifreeze protein (TmAFP). MATERIALS AND METHODS: Rat kidneys were stored in either University of Wisconsin (UW) solution (4 degree C, 24 h), CrS (-2 degree C, 48 h), or CrS with 61.5 µM TmAFP (-4.4 degree C, 72 h). Following storage, viability was assessed with MTT reduction assays and live vs. dead cell (FDA/PI) staining. Markers of ischemic damage were analyzed using fluormetric substrates for caspase-3 and calpain activity. RESULTS: Kidneys stored in CrS for 48 h and CrS with TmAFP for 72 h displayed similar levels of enzymatic activity compared to 24 h UW controls. CONCLUSION: This methodology shows promise to prolong the safe storage time of kidneys and offers the potential of increased organ availability for renal transplants.
BACKGROUND: Contemporary kidney preservation methods involve storing at 4 degree C up to 24 h prior to transplantation. By decreasing the storage temperature to below 0 degree C, we hypothesized that the safe storage time could be significantly lengthened. OBJECTIVE: The efficacy of a proprietary CryoStasis (CrS) storage solution for the subzero preservation of kidneys was tested, with or without addition of a hyperactive insect antifreeze protein (TmAFP). MATERIALS AND METHODS:Rat kidneys were stored in either University of Wisconsin (UW) solution (4 degree C, 24 h), CrS (-2 degree C, 48 h), or CrS with 61.5 µM TmAFP (-4.4 degree C, 72 h). Following storage, viability was assessed with MTT reduction assays and live vs. dead cell (FDA/PI) staining. Markers of ischemic damage were analyzed using fluormetric substrates for caspase-3 and calpain activity. RESULTS: Kidneys stored in CrS for 48 h and CrS with TmAFP for 72 h displayed similar levels of enzymatic activity compared to 24 h UW controls. CONCLUSION: This methodology shows promise to prolong the safe storage time of kidneys and offers the potential of increased organ availability for renal transplants.