@article{ART002439550},
author={Hwang Yoon Cheol},
title={Electromagnetic Bio-cell Solenoid System with Cellular Proliferation},
journal={Journal of Knowledge Information Technology and Systems},
issn={1975-7700},
year={2019},
volume={14},
number={1},
pages={25-32},
doi={10.34163/jkits.2019.14.1.003}
TY - JOUR
AU - Hwang Yoon Cheol
TI - Electromagnetic Bio-cell Solenoid System with Cellular Proliferation
JO - Journal of Knowledge Information Technology and Systems
PY - 2019
VL - 14
IS - 1
PB - Korea Knowledge Information Technology Society
SP - 25
EP - 32
SN - 1975-7700
AB - Currently, IT technology is used to convert magnetic energy into electric energy or Researches using magnetic energy such as storing the magnetic energy by flowing a current to a superconducting magnet having an electric resistance of 0 are being actively carried out. Particularly in the medical field, magnetic energy is used to cultivate cells in a biocell for the purpose of cancer treatment. However, it takes a lot of time and cost to cultivate cells in a bio cell. In this paper, we propose a self - biosensor solenoid system that can save time and cost by optimizing the effect of magnetic energy on the biocell and After designing the magnetic field administration environment, the performance is analyzed using FEMM. HER cells for cervical cancer, AGS for stomach cancer, and HEK293 cells for protein overexpression were used for the experiments, and the results of the cell growth rates of the magnetic energy for each bio cell were shown.As a result, Hera cells and HEK293 cells showed the highest growth rates at 40G. Through this analysis, the proposed self-biocell solenoid system can monitor the growth process of the biocell And the time required for culturing is shortened. The proposed magnetic biosensor solenoid system can be used to estimate the amount of magnetic energy to be applied to various biocells. In addition, it is possible to apply it to experiments in the field of magnetic therapy.
KW - Electromagnetic Energy;cultivate cell;Bio-cell;Solenoid System;FEMM
DO - 10.34163/jkits.2019.14.1.003
ER -
Hwang Yoon Cheol. (2019). Electromagnetic Bio-cell Solenoid System with Cellular Proliferation. Journal of Knowledge Information Technology and Systems, 14(1), 25-32.
Hwang Yoon Cheol. 2019, "Electromagnetic Bio-cell Solenoid System with Cellular Proliferation", Journal of Knowledge Information Technology and Systems, vol.14, no.1 pp.25-32. Available from: doi:10.34163/jkits.2019.14.1.003
Hwang Yoon Cheol "Electromagnetic Bio-cell Solenoid System with Cellular Proliferation" Journal of Knowledge Information Technology and Systems 14.1 pp.25-32 (2019) : 25.
Hwang Yoon Cheol. Electromagnetic Bio-cell Solenoid System with Cellular Proliferation. 2019; 14(1), 25-32. Available from: doi:10.34163/jkits.2019.14.1.003
Hwang Yoon Cheol. "Electromagnetic Bio-cell Solenoid System with Cellular Proliferation" Journal of Knowledge Information Technology and Systems 14, no.1 (2019) : 25-32.doi: 10.34163/jkits.2019.14.1.003
Hwang Yoon Cheol. Electromagnetic Bio-cell Solenoid System with Cellular Proliferation. Journal of Knowledge Information Technology and Systems, 14(1), 25-32. doi: 10.34163/jkits.2019.14.1.003
Hwang Yoon Cheol. Electromagnetic Bio-cell Solenoid System with Cellular Proliferation. Journal of Knowledge Information Technology and Systems. 2019; 14(1) 25-32. doi: 10.34163/jkits.2019.14.1.003
Hwang Yoon Cheol. Electromagnetic Bio-cell Solenoid System with Cellular Proliferation. 2019; 14(1), 25-32. Available from: doi:10.34163/jkits.2019.14.1.003
Hwang Yoon Cheol. "Electromagnetic Bio-cell Solenoid System with Cellular Proliferation" Journal of Knowledge Information Technology and Systems 14, no.1 (2019) : 25-32.doi: 10.34163/jkits.2019.14.1.003
