Young-Joon Seol
Wake Forest Institute for Regenerative Medicine
28 Papers
32 Citations
Young-Joon Seol is an academic researcher from Wake Forest Institute for Regenerative Medicine. The author has contributed to research in topics: Bone tissue & Bone regeneration. The author has an hindex of 19, co-authored 28 publications. Previous affiliations of Young-Joon Seol include Wake Forest University & Pohang University of Science and Technology.
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Papers
Multi-tissue interactions in an integrated three-tissue organ-on-a-chip platform
Aleksander Skardal,Aleksander Skardal,Sean V. Murphy,Mahesh Devarasetty,Mahesh Devarasetty,Ivy Mead,Hyun Wook Kang,Young-Joon Seol,Yu Shrike Zhang,Yu Shrike Zhang,Yu Shrike Zhang,Su Ryon Shin,Su Ryon Shin,Su Ryon Shin,Liang Zhao,Julio Aleman,Adam R. Hall,Adam R. Hall,Thomas Shupe,Andre Kleensang,Mehmet R. Dokmeci,Mehmet R. Dokmeci,Mehmet R. Dokmeci,Sang Jin Lee,Sang Jin Lee,John D. Jackson,James J. Yoo,James J. Yoo,Thomas Hartung,Thomas Hartung,Ali Khademhosseini,Shay Soker,Shay Soker,Colin E. Bishop,Anthony Atala,Anthony Atala +35 more
TL;DR: A three-tissue organ-on-a-chip system, comprised of liver, heart, and lung, is described, and the value of multiple tissue integration for in vitro study of both the efficacy of and side effects associated with candidate drugs is illustrated.
Optimization of gelatin-alginate composite bioink printability using rheological parameters: a systematic approach.
Teng Gao,Gregory J. Gillispie,Gregory J. Gillispie,Joshua S. Copus,Joshua S. Copus,Anil Kumar Pr,Young-Joon Seol,Anthony Atala,Anthony Atala,James J. Yoo,James J. Yoo,Sang Jin Lee,Sang Jin Lee +12 more
TL;DR: A framework for evaluating printability was developed and the effect of dynamic modulus, including storage modulus (G'), loss modulus(G″), and loss tangent (G″/G') on the printing outcome was investigated to evaluate the printability of hydrogel-based bioinks.
A 3D bioprinted complex structure for engineering the muscle-tendon unit.
Tyler K. Merceron,Morgan Burt,Young-Joon Seol,Hyun Wook Kang,Sang Jin Lee,James J. Yoo,Anthony Atala +6 more
TL;DR: This study demonstrates the versatility of the IOP system to create integrated tissue constructs with region-specific biological and mechanical characteristics for MTU engineering.
340
Bioprinting technology and its applications
TL;DR: The general principles and limitations of the most widely used bioprinting technologies, including jetting- and extrusion-based systems are introduced, as well as the current challenges that hamper clinical utility of biop printing technology.
322
3D Bioprinted Human Skeletal Muscle Constructs for Muscle Function Restoration
Ji Hyun Kim,Young-Joon Seol,In Kap Ko,Hyun Wook Kang,Young Koo Lee,Young Koo Lee,James J. Yoo,James J. Yoo,Anthony Atala,Anthony Atala,Sang Jin Lee,Sang Jin Lee +11 more
TL;DR: 3D bioprinting strategy was applied to fabricate an implantable, bioengineered skeletal muscle tissue composed of human primary muscle progenitor cells (hMPCs) and showed a highly organized multi-layered muscle bundle made by viable, densely packed, and aligned myofiber-like structures.