Paper Info
Title
Self-organizing cell tactile perception which depends on mechanical stimulus history.
Abstract
Living organisms are capable of self-reproduction, self-repair, and high adaptability through self-organization. By applying biological materials such as cells and tissues to a robot, the resulting bio-machine hybrid system can perform important biological functions beyond those of traditional robots. In this study, we focused on the mechanobiological properties of a C2C12 cell, which is an immortalized mouse myoblast cell line. Calcium ion levels increased when the cells were subjected to mechanical stimuli. This type of physiological phenomenon can be applied in novel tactile sensors to develop a bio-machine hybrid system. We verified the tactile sensation characteristics of the cells. We cultured the cells on a thin polydimethylsulfoxane (PDMS) membrane. We applied two types of mechanical stimuli to opposite sides of the PDMS membrane. Next, we observed the cell distributions and quantified the increase in calcium ion levels inside the cells for tactile sensation. Our results demonstrate that the mechanical stimuli caused significant changes in the orientation and local density of cell aggregation. Interestingly, we confirmed that calcium ion increases depend on the history of mechanical stimuli application.
Year
DOI
Venue
2019
10.1080/01691864.2019.1590232
ADVANCED ROBOTICS
Keywords
Field
DocType
Mechanobiology,self-organization,C2C12,mechanical stimuli,bio-machine hybrid system
Cell culture,Control theory,Biophysics,Mechanobiology,Cell,C2C12,Stimulus (physiology),Engineering,Hybrid system,Sensation,Tactile sensor
Journal
Volume
Issue
ISSN
33.0
SP5
0169-1864
Citations 
PageRank 
References 
0
0.34
0
Authors
9
Name
Order
Citations
PageRank
Masahiro Shimizu16616.47
Kosuke Minzan200.68
Hiroki Kawashima313.08
Kota Miyasaka401.35
Takuya Umedachi57615.88
Toshihiko Ogura612.46
Junichi Nakai772.32
Masamichi Ohkura800.68
Koh Hosoda902.70