Abstract
Small bowel transplantation (SBT) is the only curative treatment for intestinal failure due to short bowel syndrome (SBS); however, the 10-year graft survival rate after SBT remains below 50%. Therefore, alternative treatments are required. We developed a new therapeutic strategy for intestinal failure involving in vivo intestinal regeneration using a decellularized scaffold in a rat model. A 3-cm segment of decellularized small intestine was anastomosed to the jejunum for in vivo regeneration. After four weeks of regeneration, the entire native intestine was resected to induce SBS, and the regenerated intestine was transplanted into the same rat. Histological analysis revealed regeneration of mucosa, nerves, muscular layer, and crypts, consistent with autologous cell infiltration. An indocyanine green test confirmed blood flow from the adjacent mesentery into the regenerated intestine. The regenerated intestine exhibited absorption of nutrients in vivo, and ex vivo assessments confirmed peristalsis and absorptive capacity comparable to native intestine. Transplantation of the regenerated intestine significantly improved postoperative nutritional status in SBS rats. Our method, autogenic-regenerated intestinal transplantation, showed the therapeutic potential for intestinal failure. This is the first study to demonstrate a functionally integrated regenerated intestine, providing a foundation for future regenerative therapy.
Authors
Kentaro Iwaki, Takamichi Ishii, Hidenobu Kojima, Fumiaki Munekage, Hiroshi Horie, Kenta Makino, Takuma Karasuyama, Yusuke Hanabata, Elena Yukie Uebayashi, Satoshi Ogiso, Etsuro Hatano
