The vascularised chamber device significantly enhances the survival of transplanted liver organoids

Abstract

ABSTRACTOrganoid transplantation has a promising future in the treatment of liver disease, but a major limitation is the lack of guidance on the most appropriate method for transplantation that maximises organoid survival. Human induced pluripotent stem cell (hiPSC)-derived liver progenitor cell organoids were transplanted into four different transplantation sites in a mouse model of liver disease, using five organoid delivery methods. Organoids were transplanted into the vascularised chamber device established in the groin, or into the liver, spleen, and subcutaneous fat. For organoid transplantations into the liver, organoids were delivered either in Matrigel alone, or in Matrigel and a polyurethane scaffold. At 2 weeks post-transplantation, the vascularised chamber had the highest organoid survival, which was 5.1x higher than the site with second highest survival (p=0.0002), being the intra-hepatic scaffold approach. No organoid survival was observed when delivered into the liver without a scaffold, or when injected into the spleen. Very low survival occurred in transplantations into subcutaneous fat. Animals with the vascularised chamber also had the highest levels of human albumin (0.33 ± 0.09 ng/mL). This study provides strong evidence supporting the use of the vascularised chamber for future liver organoid transplantation studies, including its translation into clinical therapy.