J
Jinah Jang
Researcher at Pohang University of Science and Technology
Publications - 142
Citations - 8065
Jinah Jang is an academic researcher from Pohang University of Science and Technology. The author has contributed to research in topics: 3D bioprinting & Medicine. The author has an hindex of 36, co-authored 115 publications receiving 5427 citations. Previous affiliations of Jinah Jang include Yonsei University.
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Journal ArticleDOI
Printing three-dimensional tissue analogues with decellularized extracellular matrix bioink
Falguni Pati,Jinah Jang,Dong-Heon Ha,Sung Won Kim,Jong Won Rhie,Jin-Hyung Shim,Deok Ho Kim,Dong-Woo Cho +7 more
TL;DR: The versatility and flexibility of the developed bioprinting process using tissue-specific dECM bioinks, including adipose, cartilage and heart tissues, capable of providing crucial cues for cells engraftment, survival and long-term function are shown.
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3D printed complex tissue construct using stem cell-laden decellularized extracellular matrix bioinks for cardiac repair.
Jinah Jang,Hun-Jun Park,Seok-Won Kim,Heejin Kim,Ju Young Park,Soo Jin Na,Hyeon Ji Kim,Moon Nyeo Park,Seung Hyun Choi,Sun Hwa Park,Sung Won Kim,Sang-Mo Kwon,Pum-Joon Kim,Dong-Woo Cho +13 more
TL;DR: 3D printed pre-vascularized stem cell patch can enhance the therapeutic efficacy for cardiac repair through promotion of rapid vascularization after patch transplantation and provides cardiac niche-like microenvironment, resulting in beneficial effects on cardiac repair.
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An additive manufacturing-based PCL–alginate–chondrocyte bioprinted scaffold for cartilage tissue engineering
TL;DR: In this investigation, additive manufacturing with a multihead deposition system (MHDS) was used to fabricate three‐dimensional cell‐printed scaffolds using layer‐by‐layer (LBL) deposition of polycaprolactone (PCL) and chondrocyte cell‐encapsulated alginate hydrogel for cartilage regeneration fabricated by an advanced bioprinting technology.
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A bioprinted human-glioblastoma-on-a-chip for the identification of patient-specific responses to chemoradiotherapy
Hee-Gyeong Yi,Young Hun Jeong,Yona Kim,Yeong-Jin Choi,Hyo Eun Moon,Sung Hye Park,Kyung Shin Kang,Mihyeon Bae,Jinah Jang,Hyewon Youn,Sun Ha Paek,Dong-Woo Cho +11 more
TL;DR: In this paper, a tumour-on-a-chip model featuring patient-derived glioblastoma cells, vascular endothelial cells and decellularized extracellular matrix from brain tissue was used to identify patient-specific resistance to standard chemoradiotherapy.
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Biomimetic 3D tissue printing for soft tissue regeneration.
TL;DR: This study demonstrates that direct printing of spatially on-demand customized tissue analogs is a promising approach to soft tissue regeneration.