Jin Sun Oh
Myongji University
5 Papers
28 Citations
Jin Sun Oh is an academic researcher from Myongji University. The author has contributed to research in topics: Thrombolysis & Finite element method. The author has an hindex of 2, co-authored 5 publications.
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Papers
Drug perfusion enhancement in tissue model by steady streaming induced by oscillating microbubbles
TL;DR: Computational results showed that steady streaming with a streaming velocity of a few millimeters per second promotes mass transfer into a tissue.
18
New computational model for predicting the mechanical behavior of ionic polymer metal composite (IPMC) actuators
Jeong Hyun Lee,Jin Sun Oh,Gwang Hun Jeong,Jang Yeol Lee,Bye Ri Yoon,Jae Young Jho,Kyehan Rhee +6 more
TL;DR: In this article, a simple but versatile modeling method based on the concentrated ion boundary layer model was developed to advance the modeling of the bending behavior of IPMCs of different sizes, and the proposed modeling method is simple but general enough to simulate the deformation characteristics of IPMC actuators.
10
Development of endovascular vibrating polymer actuator probe for mechanical thrombolysis: a phantom study.
Seung Hong Choi,Bye Ri Yoon,Jin Sun Oh,Moon Hee Han,Jang Yeol Lee,Hye Rim Cho,Moon June Kim,Kyehan Rhee,Jae Young Jho +8 more
TL;DR: A vibrating polymer actuator probe is a feasible device for intravascular thrombolysis, and further study in an animal model is warranted.
2
•Journal Article
A Preliminary Study of Drug Perfusion Enhancement by Microstreaming Induced by an Oscillating Microbubble
TL;DR: This preliminary experiment shows the physical effects of steady streaming by an oscillating bubble can enhance the drug perfusion into the tissues while minimizing the biological effects.
Computational analysis of blood clot dissolution using a vibrating catheter tip.
Jeong Hyun Lee,Jin Sun Oh,Bye Ri Yoon,Seung Hong Choi,Kyehan Rhee,Jae Young Jho,Moon Hee Han +6 more
- 20 Feb 2012
TL;DR: The effectiveness of actuator oscillation on thrombolysis and the validity of the computational plasminogen activator perfusion model for predicting throm bolysis in complex flow fields induced by an oscillating actuator are shown.