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Artificial Life and Robotics
Published in: Artificial Life and Robotics 1/2016

01-03-2016 | Original Article

Flow control for cell growth by movement of magnetic particles utilizing electromagnetic force

Author: Shinjiro Umezu

Published in: Artificial Life and Robotics | Issue 1/2016

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Abstract

Three-dimensional (3D) cell structures are required to fabricate artificial organ. Inkjet technology is applied for fabrication of 3D cell structures in order to fabricate artificial organ and investigate biochemical characteristics of cells in 3D cell structures. Usually cells located inside 3D cell structures get nutrition via blood vessels. In case that there are no blood vessels in the 3D cell structures, cells located inside the 3D cell structures will die of nutrition shortage. So, blood vessels are essential to fabricate 3D cell structures. When the amount and flow of nutrition is controlled, growth speed of cells will be changed. We control the flow around the cells utilizing magnetic particles and magnetic force. The magnetic particles are installed in the dish that is filled with medium, nutrition and living cells. When the magnetic particles are trapped and transported by magnetic force, the cell growth will be controlled. In this paper, we challenge to control the flow utilizing magnetic particles and magnetic force.
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Literature
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Nakamura M, Nishiyama Y, Henmi C, Iwanaga S, Nakagawa H, Yamaguchi K, Akita K, Mochiuki S, Takiura K (2008) Ink jet three-dimensional digital fabrication for biological tissue manufacturing: analysis of alginate microgel beads produced by ink jet droplets for three dimensional tissue fabrication. J Imaging Sci Technol 52(6):060201–060206CrossRef
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Cuadros TR, Skurtys O, Aguilera JM (2012) Mechanical properties of calcium alginate fibers produced with a microfluidic device. Carbohydr polym 89:1198–1206CrossRef
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Umezu S, Kitajima T, Ohmori H, Ito Y (2011) Fundamental characteristics of printed cell structures utilizing electrostatic inkjet phenomena. Sens Actuators A: phys 166(2): 251–255CrossRef
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Umezu S (2011) BioCell print utilizing patterning with electrostatically injected droplet (PELID) method. J artif Life Robot 17(1): 59–62CrossRef
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Umezu S, Hatta T, Ohmori H (2013) Fundamental characteristics of bioprint on calcium alginate gel. Jpn J Appl Phys 52(5S1):05DB20
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Umezu S, Kunugi Y, Ohmori H (2013) Dye-sensitized solar cell utilizing electrostatic inkjet. Jpn J Appl Phys 52(5S1):​05DC23
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Gijs AMM (2004) Magnetic bead handling on-chip: new opportunities for analytical applications. Microfluid Nanofluidics 1(1): 22–40
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Metadata
Title
Flow control for cell growth by movement of magnetic particles utilizing electromagnetic force
Author
Shinjiro Umezu
Publication date
01-03-2016
Publisher
Springer Japan
Published in
Artificial Life and Robotics / Issue 1/2016
Print ISSN: 1433-5298
Electronic ISSN: 1614-7456
DOI
https://doi.org/10.1007/s10015-016-0261-1

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