Fig. 1. Construction of human liver seed grafts.

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Fig. 4. Characterization of human liver seed graft morphology.

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Fig. 5. Vascularization of human liver seed grafts.

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Fig. 5. Vascularization of human liver seed grafts.

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Fig. 2. Human liver tissue seed grafts expand after host liver injury.

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Presentation transcript:

Fig. 1. Construction of human liver seed grafts. Construction of human liver seed grafts. (A) Human hepatic aggregates containing human primary hepatocytes and NHDFs were created using pyramidal microwells. (B) Hepatic aggregates (red) were then combined with geometrically patterned human endothelial cell cords (green) in a fibrin hydrogel to create “liver tissue seeds” that were then implanted ectopically into FNRG mice. Right: Blue-gloved finger demonstrates macroscopic scale of human liver tissue seeds. (C) Human albumin production by human hepatocytes was enhanced sixfold in liver seed grafts containing both hepatocytes (Hep) and NHDFs compared to seed grafts containing only hepatocytes after culture in vitro for 6 days (***P < 0.0001). (D) Albumin promoter activity was enhanced in implanted liver seed grafts composed of human hepatocytes and NHDFs compared to those containing only human hepatocytes, 6 days after implantation into FNRG mice (**P < 0.01). ROI, region of interest. Scale bars, 400 μm. Kelly R. Stevens et al., Sci Transl Med 2017;9:eaah5505 Copyright © 2017 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works