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Biofabrication of Hepatic Constructs by 3D Bioprinting of a Cell‐Laden Thermogel: An Effective Tool to Assess Drug‐Induced Hepatotoxic Response

Manuele Gori, Sara Maria Giannitelli, Miranda Torre, Pamela Mozetic, Franca Abbruzzese, Marcella Trombetta, Enrico Traversa, Lorenzo Moroni, Alberto Rainer

2020Advanced Healthcare Materials74 citationsDOIOpen Access PDF

Abstract

A thermoresponsive Pluronic/alginate semisynthetic hydrogel is used to bioprint 3D hepatic constructs, with the aim to investigate liver-specific metabolic activity of the 3D constructs compared to traditional 2D adherent cultures. The bioprinting method relies on a bioinert hydrogel and is characterized by high-shape fidelity, mild depositing conditions and easily controllable gelation mechanism. Furthermore, the dissolution of the sacrificial Pluronic templating agent significantly ameliorates the diffusive properties of the printed hydrogel. The present findings demonstrate high viability and liver-specific metabolic activity, as assessed by synthesis of urea, albumin, and expression levels of the detoxifying CYP1A2 enzyme of cells embedded in the 3D hydrogel system. A markedly increased sensitivity to a well-known hepatotoxic drug (acetaminophen) is observed for cells in 3D constructs compared to 2D cultures. Therefore, the 3D model developed herein may represent an in vitro alternative to animal models for investigating drug-induced hepatotoxicity.

Topics & Concepts

Biofabrication3D bioprintingBioartificial liver devicePoloxamerDrugAlbuminViability assayPharmacologyMaterials scienceBiomedical engineeringIn vitroChemistryTissue engineeringHepatocyteBiochemistryMedicineCopolymerComposite materialPolymer3D Printing in Biomedical ResearchInnovative Microfluidic and Catalytic Techniques InnovationLiver physiology and pathology