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Revitalizing liver function in mice with liver failure through transplantation of 3D-bioprinted liver with expanded primary hepatocytes

Bo Deng, Yue Ma, Jialyu Huang, Runbang He, Miaomiao Luo, Lina Mao, Enhua Zhang, Yuanyuan Zhao, Xiaoli Wang, Qiangsong Wang, Mingchang Pang, Yilei Mao, Huayu Yang, Lanxia Liu, Pengyu Huang

2024Science Advances34 citationsDOIOpen Access PDF

Abstract

The utilization of three-dimensional (3D) bioprinting technology to create a transplantable bioartificial liver emerges as a promising remedy for the scarcity of liver donors. This study outlines our strategy for constructing a 3D-bioprinted liver, using in vitro-expanded primary hepatocytes recognized for their safety and enhanced functional robustness as hepatic cell sources for bioartificial liver construction. In addition, we have developed bioink biomaterials with mechanical and rheological properties, as well as printing capabilities, tailored for 3D bioprinting. Upon heterotopic transplantation into the mesentery of tyrosinemia or 90% hepatectomy mice, our 3D-bioprinted liver effectively restored lost liver functions, consequently extending the life span of mice afflicted with liver injuries. Notably, the inclusion of an artificial blood vessel in our 3D-bioprinted liver allowed for biomolecule exchange with host blood vessels, demonstrating, in principle, the rapid integration of the bioartificial liver into the host vascular system. This model underscores the therapeutic potential of transplantation for the treatment of liver failure diseases.

Topics & Concepts

3D bioprintingBioartificial liver deviceTransplantationLiver transplantationLiver failureLiver functionMedicineTissue engineeringHepatocyteBiomedical engineeringBiologySurgeryIn vitroInternal medicineBiochemistry3D Printing in Biomedical ResearchLiver physiology and pathologyPluripotent Stem Cells Research
Revitalizing liver function in mice with liver failure through transplantation of 3D-bioprinted liver with expanded primary hepatocytes | Litcius