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Transplantation of bioengineered liver capable of extended function in a preclinical liver failure model.

Hisanobu HigashiHiroshi YagiKohei KurodaKazuki TajimaHideaki KojimaKotaro NishiToshinori MorisakuKazuya HirukawaKazumasa FukudaKentaro MatsubaraMinoru KitagoMasahiro ShinodaHideaki ObaraShungo AdachiKumiko NishimuraTohru NatsumeMasatoshi TomiAlejandro Soto-GutierrezYuko Kitagawa
Published in: American journal of transplantation : official journal of the American Society of Transplantation and the American Society of Transplant Surgeons (2022)
Unlimited organ availability would represent a paradigm shift in transplantation. Long-term in vivo engraftment and function of scaled-up bioengineered liver grafts have not been previously reported. In this study, we describe a human-scale transplantable liver graft engineered on a porcine liver-derived scaffold. We repopulated the scaffold parenchyma with primary hepatocytes and the vascular system with endothelial cells. For in vivo functional testing, we performed auxiliary transplantation of the repopulated scaffold in pigs with induced liver failure. It was observed that the auxiliary bioengineered liver graft improved liver function for 28 days and exhibited upregulation of liver-specific genes. This study is the first of its kind to present 28 days of posttransplant evaluation of a bioengineered liver graft using a preclinical large animal model. Furthermore, it provides definitive evidence for the feasibility of engineering human-scale transplantable liver grafts for clinical applications.
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