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      3D Cultivation Techniques for Primary Human Hepatocytes

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          Abstract

          One of the main challenges in drug development is the prediction of in vivo toxicity based on in vitro data. The standard cultivation system for primary human hepatocytes is based on monolayer cultures, even if it is known that these conditions result in a loss of hepatocyte morphology and of liver-specific functions, such as drug-metabolizing enzymes and transporters. As it has been demonstrated that hepatocytes embedded between two sheets of collagen maintain their function, various hydrogels and scaffolds for the 3D cultivation of hepatocytes have been developed. To further improve or maintain hepatic functions, 3D cultivation has been combined with perfusion. In this manuscript, we discuss the benefits and drawbacks of different 3D microfluidic devices. For most systems that are currently available, the main issues are the requirement of large cell numbers, the low throughput, and expensive equipment, which render these devices unattractive for research and the drug-developing industry. A higher acceptance of these devices could be achieved by their simplification and their compatibility with high-throughput, as both aspects are of major importance for a user-friendly device.

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          Microscale culture of human liver cells for drug development.

          Salman R. Khetani, Sangeeta N. Bhatia (2008)
          Tissue function depends on hierarchical structures extending from single cells ( approximately 10 microm) to functional subunits (100 microm-1 mm) that coordinate organ functions. Conventional cell culture disperses tissues into single cells while neglecting higher-order processes. The application of semiconductor-driven microtechnology in the biomedical arena now allows fabrication of microscale tissue subunits that may be functionally improved and have the advantages of miniaturization. Here we present a miniaturized, multiwell culture system for human liver cells with optimized microscale architecture that maintains phenotypic functions for several weeks. The need for such models is underscored by the high rate of pre-launch and post-market attrition of pharmaceuticals due to liver toxicity. We demonstrate utility through assessment of gene expression profiles, phase I/II metabolism, canalicular transport, secretion of liver-specific products and susceptibility to hepatotoxins. The combination of microtechnology and tissue engineering may enable development of integrated tissue models in the so-called 'human on a chip'.
          Article 0 comments Cited 281 times – based on 0 reviews     Review now
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            PEG hydrogels for the controlled release of biomolecules in regenerative medicine.

            Chien-Chi Lin, Kristi S. Anseth (2009)
            Polyethylene glycol (PEG) hydrogels are widely used in a variety of biomedical applications, including matrices for controlled release of biomolecules and scaffolds for regenerative medicine. The design, fabrication, and characterization of PEG hydrogels rely on the understanding of fundamental gelation kinetics as well as the purpose of the application. This review article will focus on different polymerization mechanisms of PEG-based hydrogels and the importance of these biocompatible hydrogels in regenerative medicine applications. Furthermore, the design criteria that are important in maintaining the availability and stability of the biomolecules as well as the mechanisms for loading of biomolecules within PEG hydrogels will also be discussed. Finally, we overview and provide a perspective on some of the emerging novel design and applications of PEG hydrogel systems, including the spatiotemporal-controlled delivery of biomolecules, hybrid hydrogels, and PEG hydrogels designed for controlled stem cell differentiation.
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              Primary hepatocytes: current understanding of the regulation of metabolic enzymes and transporter proteins, and pharmaceutical practice for the use of hepatocytes in metabolism, enzyme induction, transporter, clearance, and hepatotoxicity studies.

              Nicola J Hewitt, R. M. Brown, J. Graeme Houston (2007)
              This review brings you up-to-date with the hepatocyte research on: 1) in vitro-in vivo correlations of metabolism and clearance; 2) CYP enzyme induction, regulation, and cross-talk using human hepatocytes and hepatocyte-like cell lines; 3) the function and regulation of hepatic transporters and models used to elucidate their role in drug clearance; 4) mechanisms and examples of idiosyncratic and intrinsic hepatotoxicity; and 5) alternative cell systems to primary human hepatocytes. We also report pharmaceutical perspectives of these topics and compare methods and interpretations for the drug development process.
              Article 0 comments Cited 118 times – based on 0 reviews     Review now
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                Author and article information

                Contributors
                Mohammad Reza Lornejad-Schäfer: Role: Academic Editor
                Christine Schäfer: Role: Academic Editor
                Journal
                Journal ID (nlm-ta): Microarrays (Basel)
                Journal ID (iso-abbrev): Microarrays (Basel)
                Journal ID (publisher-id): microarrays
                Title: Microarrays
                Publisher: MDPI
                ISSN (Electronic): 2076-3905
                Publication date (Electronic): 16 February 2015
                Publication date Collection: March 2015
                Volume: 4
                Issue: 1
                Pages: 64-83
                Affiliations
                [1 ]BG Trauma Center, Siegfried Weller Institut, Eberhard Karls University Tübingen, Schnarrenbergstr. 95, 72076 Tü̈bingen, Germany; E-Mails: anastasia.bachmann@ 123456gmail.com (A.B.); matthias.moll@ 123456student.uni-tuebingen.de (M.M.); britta.burkhardt@ 123456gmx.de (B.B.); jjmartinezsanchez@ 123456live.com (J.J.M.S.)
                [2 ]Institute for Biological Interfaces, Karlsruhe Institute of Technology, POB 3640, 76021 Karlsruhe, Germany; E-Mails: eric.gottwald@ 123456kit.edu (E.G.); cordula.nies@ 123456kit.edu (C.N.)
                [3 ]ibidi GmbH, Am Klopferspitz 19, 82152 Martinsried, Germany; E-Mails: rzantl@ 123456ibidi.de (R.Z.); hwagner@ 123456ibidi.de (H.W.)
                [4 ]Clinic for General, Visceral and Transplantation Surgery, Eberhard Karls University Tübingen, Hoppe-Seyler-Str. 3, 72076 Tübingen, Germany; E-Mail: ruth.ladurner@ 123456med.uni-tuebingen.de
                [5 ]Department of Surgery, Ludwig-Maximilians-University of Munich Hospital Grosshadern, 81377  Munich, Germany; E-Mail: wolfgang.thasler@ 123456med.uni-muenchen.de
                [6 ]Department for General, Visceral and Transplantation Surgery, Charité Medical University Berlin, Augustenburger Platz 1, 13353 Berlin, Germany; E-Mail: georg.damm@ 123456charite.de
                Author notes
                [* ]Author to whom correspondence should be addressed; E-Mail: andreas.nuessler@ 123456gmail.com ; Tel.: +49-7071-606-1065; Fax: +49-7071-606-1978.
                Article
                Publisher ID: microarrays-04-00064
                DOI: 10.3390/microarrays4010064
                PMC ID: 4996383
                PubMed ID: 27600213
                SO-VID: eafe4626-0a62-4589-a4f6-a0221dbc97cd
                Copyright © © 2015 by the authors; licensee MDPI, Basel, Switzerland.
                License:

                This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution license ( http://creativecommons.org/licenses/by/4.0/).

                History
                Date received : 15 December 2014
                Date accepted : 03 February 2015
                Categories
                Subject: Review

                Keywords: primary human hepatocytes,three-dimensional (3d) cell culture,two-dimensional (2d) cell culture,in vitro model,hydrogels,scaffolds,drug-induced hepatotoxicity,long-term culture
                Data availability:
                Keywords: primary human hepatocytes, three-dimensional (3d) cell culture, two-dimensional (2d) cell culture, in vitro model, hydrogels, scaffolds, drug-induced hepatotoxicity, long-term culture

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