Lessons learned from pre-clinical testing of xenogeneic decellularized esophagi in a rabbit model

Decellularization of esophagi from several species for tissue engineering is well described, but successful implantation in animal models of esophageal replacement has been challenging. The purpose of this study was to assess feasibility and applicability of esophageal replacement using decellularized porcine esophageal scaffolds in a new pre-clinical model. Following surgical replacement in rabbits with a vascularizing muscle flap, we observed successful anastomoses of decellularized scaffolds, cues of early neovascularization, and prevention of luminal collapse by the use of biodegradable stents. However, despite the success of the surgical procedure, the long-term survival was limited by the fragility of the animal model. Our results indicate that transplantation of a decellularized porcine scaffold is possible and vascular flaps may be useful to provide a vascular supply, but long-term outcomes require further pre-clinical testing in a different large animal model. [Display omitted] •Decellularized porcine esophageal scaffold can be transplanted in rabbits•Abdominal muscle flap supports neovascularization of a porcine esophageal scaffold•Biodegradable stents support luminal patency preventing scaffold collapse•Rabbits are a poor model to study long-term outcomes of esophageal replacement Biological sciences; Biomedical engineering; Tissue engineering; Biotechnology.