Cell therapies and liver organogenesis technologies: Promising strategies for end-stage liver disease.

End-stage liver disease represents a critical hepatic condition with high mortality, for which liver transplantation remains the only effective treatment. However, the scarcity of suitable donors results in numerous patients dying while awaiting transplantation. Novel strategies, including cell therapies and technologies mimicking liver organogenesis, offer promising alternatives for treating end-stage liver disease by potentially providing new sources of liver grafts. Recently, significant progress has been made in this field, including stem cell transplantation, hepatocyte transplantation, in vitro liver tissue generation, and liver replacement technologies. Several clinical studies have demonstrated that stem cell transplantation and hepatocyte transplantation can prolong patient survival and serve as a bridge to liver transplantation. Furthermore, in vitro liver tissue generation technologies, such as liver organoids and three-dimensional bioprinting, can generate hepatic tissues with sophisticated structures and functions, making them promising transplantation materials. Notably, liver replacement technologies hold considerable potential for producing biologically functional and transplantable liver grafts. In this review, we discuss the fundamental principles and recent advancements in cell therapies and liver organogenesis technologies while also addressing the challenges and future prospects in this rapidly evolving field.