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Chonnam National University

2 ARTICLES PUBLISHED IN JoVE

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Bioengineering

3D Cell-Printed Hypoxic Cancer-on-a-Chip for Recapitulating Pathologic Progression of Solid Cancer
Wonbin Park *1, Mihyeon Bae *1, Minseon Hwang 1, Jinah Jang 2, Dong-Woo Cho 1, Hee-Gyeong Yi 1,3
1Department of Mechanical Engineering, Pohang University of Science and Technology (POSTECH), 2Department of Creative IT Engineering, Pohang University of Science and Technology (POSTECH), 3Department of Rural and Biosystems Engineering, College of Agriculture and Life Sciences, Chonnam National University

Hypoxia is a hallmark of tumor microenvironment and plays a crucial role in cancer progression. This article describes the fabrication process of a hypoxic cancer-on-a-chip based on 3D cell-printing technology to recapitulate a hypoxia-related pathology of cancer.

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Bioengineering

High-Throughput Bioprinting Method for Modeling Vascular Permeability in Standard Six-well Plates with Size and Pattern Flexibility
Ashfaq Ahmad 1,2, Mst Zobaida Akter 1,2, Seo-Yeon Kim 1,2, Yeong-Jin Choi 3,4, Hee-Gyeong Yi 1,2
1Department of Convergence Biosystems Engineering, College of Agriculture and Life Sciences (CALS), Chonnam National University, 2Interdisciplinary Program in IT-Bio Convergence System, Chonnam National University, 3Advanced Bio and Healthcare Materials Research Division, Korea Institute of Materials Science (KIMS), 4Advanced Materials Engineering, Korea National University of Science and Technology (UST)

We present a protocol for high-throughput production of vascular channels with flexible sizes and desired patterns on a standard six-well plate using 3D bioprinting technology, referred to as vessels-on-a-plate (VOP). This platform has the potential to advance the development of therapeutics for the disorders associated with compromised endothelium.

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