Heterotopic Renal Autotransplantation in a Porcine Model: A Step-by-Step Protocol |
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| Authors: | J. Moritz Kaths Juan Echeverri Nicolas Goldaracena Kristine S. Louis Paul Yip Rohan John Istvan Mucsi Anand Ghanekar Darius Bagli Markus Selzner Lisa A. Robinson |
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| Affiliation: | 1.Multi Organ Transplant Program, Department of Surgery, Toronto General Hospital;2.Division of Nephrology, The Hospital for Sick Children;3.Programa de Doctorat en Medicina, La Universitat Autónoma de Barcelona;4.Laboratory Medicine and Pathobiology, Toronto General Hospital;5.Department of Medicine, Toronto General Hospital;6.Departments of Surgery (Urology) & Physiology, Developmental & Stem Cell Biology, The Hospital for Sick Children |
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| Abstract: | ![]()
Kidney transplantation is the treatment of choice for patients suffering from end-stage renal disease. It offers better life expectancy and higher quality of life when compared to dialysis. Although the last few decades have seen major improvements in patient outcomes following kidney transplantation, the increasing shortage of available organs represents a severe problem worldwide. To expand the donor pool, marginal kidney grafts recovered from extended criteria donors (ECD) or donated after circulatory death (DCD) are now accepted for transplantation. To further improve the postoperative outcome of these marginal grafts, research must focus on new therapeutic approaches such as alternative preservation techniques, immunomodulation, gene transfer, and stem cell administration.Experimental studies in animal models are the final step before newly developed techniques can be translated into clinical practice. Porcine kidney transplantation is an excellent model of human transplantation and allows investigation of novel approaches. The major advantage of the porcine model is its anatomical and physiological similarity to the human body, which facilitates the rapid translation of new findings to clinical trials. This article offers a surgical step-by-step protocol for an autotransplantation model and highlights key factors to ensure experimental success. Adequate pre- and postoperative housing, attentive anesthesia, and consistent surgical techniques result in favorable postoperative outcomes. Resection of the contralateral native kidney provides the opportunity to assess post-transplant graft function. The placement of venous and urinary catheters and the use of metabolic cages allow further detailed evaluation. For long-term follow-up studies and investigation of alternative graft preservation techniques, autotransplantation models are superior to allotransplantation models, as they avoid the confounding bias posed by rejection and immunosuppressive medication. |
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| Keywords: | Medicine Issue 108 Renal kidney organ transplantation porcine pig swine model auto-allotransplantation organ shortage organ preservation technique marginal graft delayed graft function (DGF) primary non-function (PNF) |
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