2017
DOI: 10.1172/jci.insight.90853
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Long-term culture of human liver tissue with advanced hepatic functions

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Cited by 27 publications
(27 citation statements)
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References 40 publications
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“…We used a 3D macroporous PEG‐DA hydrogel, known as an inverse colloidal crystal (ICC) scaffold, that aims to mimic the anatomy of native liver tissue. The ICC scaffold has uniform sized pores, interconnected in a hexagonal pattern, and we have previously demonstrated the generation of liver organoids using both primary human fetal liver cells and non‐cGMP‐compliant hPSCs within this model. To facilitate the characterization of the morphogenic transformation of hPSC‐Heps within this scaffold, we performed a series of immunofluorescence staining and constructed the 3D images using confocal microscopy.…”
Section: Resultsmentioning
confidence: 99%
“…We used a 3D macroporous PEG‐DA hydrogel, known as an inverse colloidal crystal (ICC) scaffold, that aims to mimic the anatomy of native liver tissue. The ICC scaffold has uniform sized pores, interconnected in a hexagonal pattern, and we have previously demonstrated the generation of liver organoids using both primary human fetal liver cells and non‐cGMP‐compliant hPSCs within this model. To facilitate the characterization of the morphogenic transformation of hPSC‐Heps within this scaffold, we performed a series of immunofluorescence staining and constructed the 3D images using confocal microscopy.…”
Section: Resultsmentioning
confidence: 99%
“…The undegradable PEG hydrogel was applied for the encapsulation of co-cultured hepatocytes, preventing aggregation and overgrowth, and enabling formation of microtissues with stable hepatic function [149]. Recently, PEG was fabricated into 3D hexagonally arrayed lobular human liver tissues and the hydrogel enabled primary human fetal liver cells to self-assemble into a 3D configuration and preserved advanced hepatic functions for at least five months [150].…”
Section: Synthetic Hydrogelsmentioning
confidence: 99%
“…We utilized a 3D macroporous PEG-DA hydrogel, known as an inverse colloidal crystal (ICC) scaffold, that aims to mimic the anatomy of native liver tissue. The ICC scaffold has uniform sized pores, interconnected in a hexagonal pattern, and 16 we have previously demonstrated that human fetal liver-derived organoids can be generated through their culture within this model [52]. To facilitate the characterization of the morphogenic transformation of hPSC-Heps within this scaffold, we performed a series of immunofluorescence staining and constructed the 3D images using confocal microscopy.…”
Section: D Maturation Of Hpsc-heps Within a Peg-da-based Scaffold Sumentioning
confidence: 99%