Abstract
Patients with kidney failure rely on life-saving peritoneal dialysis to facilitate waste exchange and maintain homeostasis of physical conditions. However, peritoneal dialysis often results in peritoneal fibrosis and organ adhesion that subsequently compromise the efficiency of peritoneal dialysis and normal functions of visceral organs. Despite rodent models provide clues on the pathogenesis of peritoneal fibrosis, no current large animal model which shares high degree of physiological and anatomical similarities to human is available, limiting their applications on the evaluation of pre-clinical therapeutic efficacy. Here we established for the first time, hypochlorite-induced porcine model of peritoneal fibrosis in 5-week-old piglets. We showed that administration 15–30 mM hypochlorite, a dose- and time-dependent severity of peritoneal fibrosis characterized by mesothelium fragmentation, αSMA+ myofibroblasts accumulation, organ surface thickening and type I collagen deposition were observed. We also demonstrated in vitro using human mesothelial cells that hypochlorite-induced fibrosis was likely due to necrosis, but not programmed apoptosis; besides, overexpression of IL1β, CX3CL1 and TGFβ on the peritoneal mesothelium in current model was detected, similar to observations from peritoneal dialysis-induced peritoneal fibrosis in human patients and earlier reported mouse model. Moreover, our novel antemortem evaluation using laparoscopy provided instant feedback on the progression of organ fibrosis/adhesion which allows immediate adjustments on treatment protocols and strategies in alive individuals that can not and never be performed in other animal models.
Highlights
Patients with kidney failure rely on life-saving peritoneal dialysis to facilitate waste exchange and maintain homeostasis of physical conditions
Peritoneal fibrosis resulted from peritoneal dialysis (PD) or peritoneal injury hampers the efficiency of PD and alters normal function of visceral organs
Despite mechanisms and pathogenesis of peritoneal fibrosis have been studied; most of the information was derived from experiments using rodent s pecies[24,25,26]
Summary
Patients with kidney failure rely on life-saving peritoneal dialysis to facilitate waste exchange and maintain homeostasis of physical conditions. We aim to establish peritoneal fibrosis in pig by a single administration of sodium hypochlorite (NaClO), and establish evaluation methods including antemortem laparoscopy examination and biopsy, postmortem necropsy, pathological and cytokine evaluations to assess mesothelium integrity, collagen deposition, thickening of SM compact zone and myofibroblast accumulations With this novel porcine model and detail investigation on the mechanism of hypochlorite-induced peritoneal fibrosis, we can facilitate and validate existing efficacy evaluations on potential target compounds and therapeutic protocols, and provide an alternative pre-clinical evaluation platform for validating findings from murine models as well as accessing feasibility, efficiency and clinical safety of regenerative cell therapy prior to human trials
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