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Bioelectronics-on-a-chip for cardio myoblast proliferation enhancement using electric field stimulation.

Authors :
Aragón Á
Cebro-Márquez M
Perez E
Pazos A
Lage R
González-Juanatey JR
Moscoso I
Bao-Varela C
Nieto D
Source :
Biomaterials research [Biomater Res] 2020 Sep 07; Vol. 24, pp. 15. Date of Electronic Publication: 2020 Sep 07 (Print Publication: 2020).
Publication Year :
2020

Abstract

Background: Cardio myoblast generation from conventional approaches is laborious and time-consuming. We present a bioelectronics on-a-chip for stimulating cells cardio myoblast proliferation during culture.<br />Method: The bioelectronics chip fabrication methodology involves two different process. In the first step, an aluminum layer of 200 nm is deposited over a soda-lime glass substrate using physical vapor deposition and selectively removed using a Q-switched Nd:YVO <subscript>4</subscript> laser to create the electric tracks. To perform the experiments, we developed a biochip composed of a cell culture chamber fabricated with polydimethylsiloxane (PDMS) with a glass coverslip or a cell culture dish placed over the electric circuit tracks. By using such a glass cover slip or cell culture dish we avoid any toxic reactions caused by electrodes in the culture or may be degraded by electrochemical reactions with the cell medium, which is crucial to determine the effective cell-device coupling.<br />Results: The chip was used to study the effect of electric field stimulation of Rat ventricular cardiomyoblasts cells (H9c2). Results shows a remarkable increase in the number of H9c2 cells for the stimulated samples, where after 72 h the cell density double the cell density of control samples.<br />Conclusions: Cell proliferation of Rat ventricular cardiomyoblasts cells (H9c2) using the bioelectronics-on-a-chip was enhanced upon the electrical stimulation. The dependence on the geometrical characteristics of the electric circuit on the peak value and homogeneity of the electric field generated are analyzed and proper parameters to ensure a homogeneous electric field at the cell culture chamber are obtained. It can also be observed a high dependence of the electric field on the geometry of the electrostimulator circuit tracks and envisage the potential applications on electrophysiology studies, monitoring and modulate cellular behavior through the application of electric fields.<br />Competing Interests: Competing interestsThe authors declare that they have no competing interests.<br /> (© The Author(s) 2020.)

Details

Language :
English
ISSN :
1226-4601
Volume :
24
Database :
MEDLINE
Journal :
Biomaterials research
Publication Type :
Academic Journal
Accession number :
32944279
Full Text :
https://doi.org/10.1186/s40824-020-00195-2