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The Iliac Fossa Transplant as an Acute Rejection Model in Porcine Kidney Transplantation: a Tool for the Safety Study of the Stem Cell- induced Humanized Tissue  

Kwak, Ho-Hyun (College of Veterinary Medicine and KNU Stem Cell Institute, Kangwon National University)
Nam, Hyun-Suk (College of Veterinary Medicine and KNU Stem Cell Institute, Kangwon National University)
Woo, Heung-Myong (College of Veterinary Medicine and KNU Stem Cell Institute, Kangwon National University)
Publication Information
Journal of Veterinary Clinics / v.28, no.1, 2011 , pp. 63-70 More about this Journal
Abstract
To consider the iliac fossa as the vascular anastomosis site of kidney transplantation for the short-term study of acute rejection in pigs. Twelve domestic pigs weighing 39~48 kg underwent heterotopic renal allgraft transplantation. The experimental animals were divided into 2 groups in terms of renal vascular anastomosis site; the external iliac artery and vein were used in iliac fossa model (n = 6), the abdominal aorta and the caudal vena cava inferior to the kidney were used in abdominal cavity model (n = 6). Renal function was evaluated by daily measurement of plasma creatinine and BUN concentrations. The experiments' health including postoperative complications was also assessed daily for 8 days after transplantation. After euthanazation gross and histopathologic analysis was performed. All six pigs in iliac fossa model developed neuropraxia and lameness of the ipsilateral pelvic limb. However, no necrosis was observed in any pigs. In the abdominal cavity model, durations of both the surgical operation and the vascular anastomosis were significantly longer than those in the iliac fossa model. Furthermore, ischemia injury of the transplanted kidney was increased in abdominal cavity model, which induced accelerated-acute immune response from day 4 after transplantation. Despite of pelvic limb complication, the iliac fossa model showed more advantages including not only less ischemia time related to easy vascular anastomosis, but also less immune response during the acute rejection period. The results indicate that the iliac fossa model may be appropriate to the study of acute rejection in porcine kidney transplantation.
Keywords
pig; model; kidney; transplantation; acute rejection;
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