Journal ArticleDOI
A vertical-flow bioreactor array compacts hepatocytes for enhanced polarity and functions
Liang Zhu,Huanming Xia,Z. F. Wang,Eliza Li Shan Fong,Junjun Fan,Wen Hao Tong,Yen Peng Daphne Seah,Weian Zhang,Qiushi Li,Hanry Yu +9 more
TLDR
A vertical-flow compaction bioreactor array that compacts hepatocytes within the range of IAP and portal pressure in vivo in a multi-well setup is designed, and hepatocytes exhibited accelerated repolarization, an in vivo-like cuboidal morphology, and better maintained hepatic functions in long-term culture.Abstract:
Although hepatocytes in vivo experience intra-abdominal pressure (IAP), pressure is typically not incorporated in hepatocyte culture systems. The cuboidal cell shape and extent of intercellular contact between cultured hepatocytes are critical parameters that influence the differentiated hepatic phenotype. Using a microfluidic device, the application of pressure to artificially compact cells and forge cell-cell interactions was previously demonstrated to be effective in accelerating hepatic repolarization. In seeking to implement this approach to higher throughput culture platforms for potential drug screening applications, we specifically designed a vertical-flow compaction bioreactor array (VCBA) that compacts hepatocytes within the range of IAP and portal pressure in vivo in a multi-well setup. As a result of vertical perfusion-generated forces, hepatocytes not only exhibited accelerated repolarization, an in vivo-like cuboidal morphology, but also better maintained hepatic functions in long-term culture as compared to the same cells cultured under static conditions. As a novel engineering tool to modulate cell compaction and intercellular interactions, this platform is a promising approach to confer tight control over hepatocyte repolarization for in vitro culture.read more
Citations
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Integrated gut/liver microphysiological systems elucidates inflammatory inter-tissue crosstalk.
Wen Li Kelly Chen,Collin Edington,Emily Suter,Jiajie Yu,Jeremy J. Velazquez,Jason Velazquez,Michael Shockley,Emma M. Large,Raman Venkataramanan,David Hughes,Cynthia L. Stokes,David L. Trumper,Murat Cirit,Linda G. Griffith,Douglas A. Lauffenburger +14 more
TL;DR: In this paper, the authors present a study on human gut-liver tissue interactions under normal and inflammatory contexts, via an integrative multi-organ platform comprising human liver (hepatocytes and Kupffer cells), and intestinal (enterocytes, goblet cells, and dendritic cells) models.
Journal ArticleDOI
Microfluidic organ-on-a-chip models of human liver tissue.
TL;DR: The cellular constituents and physiology of the liver are reviewed and critically discussed and the state-of-the-art chip-based liver models and their applications in drug screening, disease modeling, and regenerative medicine are discussed.
Journal ArticleDOI
A perfusion incubator liver chip for 3D cell culture with application on chronic hepatotoxicity testing.
Fang Yu,Fang Yu,Rensheng Deng,Wen Hao Tong,Wen Hao Tong,Li Huan,Ng Chan Way,Anik IslamBadhan,Ciprian Iliescu,Hanry Yu +9 more
TL;DR: A perfusion-incubator-liver-chip (PIC) for 3D cell culture, that assures a tangential flow of the media over the spheroids culture, and the chronic drug response to repeated dosing of Diclofenac and Acetaminophen evaluated in PIC were more sensitive than the static culture control.
Journal ArticleDOI
A decade of progress in liver regenerative medicine.
TL;DR: This review aims to highlight the last decade's progress in liver regenerative medicine from liver tissue engineering, bioartificial liver devices (BAL), to liver-on-a-chip platforms, and then to present challenges ahead for further advancement.
Journal ArticleDOI
Flat and microstructured polymeric membranes in organs-on-chips
TL;DR: The state of the art for developing porous membranes with suitable porosity, shape and surface morphology matching the requirements of Oocs is reviewed and their application in OOCs is discussed.
References
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Fiji: an open-source platform for biological-image analysis
Johannes Schindelin,Ignacio Arganda-Carreras,Erwin Frise,Verena Kaynig,Mark Longair,Tobias Pietzsch,Stephan Preibisch,Curtis Rueden,Stephan Saalfeld,Benjamin Schmid,Jean-Yves Tinevez,Daniel J. White,Volker Hartenstein,Kevin W. Eliceiri,Pavel Tomancak,Albert Cardona +15 more
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Microfluidic organs-on-chips
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Actin stress fibers--assembly, dynamics and biological roles.
Abstract: Actin filaments assemble into diverse protrusive and contractile structures to provide force for a number of vital cellular processes. Stress fibers are contractile actomyosin bundles found in many cultured non-muscle cells, where they have a central role in cell adhesion and morphogenesis. Focal-adhesion-anchored stress fibers also have an important role in mechanotransduction. In animal tissues, stress fibers are especially abundant in endothelial cells, myofibroblasts and epithelial cells. Importantly, recent live-cell imaging studies have provided new information regarding the mechanisms of stress fiber assembly and how their contractility is regulated in cells. In addition, these studies might elucidate the general mechanisms by which contractile actomyosin arrays, including muscle cell myofibrils and cytokinetic contractile ring, can be generated in cells. In this Commentary, we discuss recent findings concerning the physiological roles of stress fibers and the mechanism by which these structures are generated in cells.
Journal ArticleDOI
Mechanotransduction at Cell-Matrix and Cell-Cell Contacts
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Journal ArticleDOI
Effects of oxygenation and flow on the viability and function of rat hepatocytes cocultured in a microchannel flat-plate bioreactor
TL;DR: Investigation of the viability and synthetic function of rat hepatocytes cocultured with 3T3-J2 fibroblasts in a small-scale microchannel flat-plate bioreactor with and without an internal membrane oxygenator under flow showed that theBioreactor without the oxygenator resulted in significantly decreased viability and function of hepatocytes, whereas hepatocytes in the bioreactors with internal membranes oxygenator were able to maintain their viability andfunction.