Application of direct current electric fields to cells and tissues in vitro and modulation of wound electric field in vivo

Bing Song; Yu Gu; Jin Pu; Brian Reid; Zhiqiang Zhao; Min Zhao

doi:10.1038/NPROT.2007.205

Application of direct current electric fields to cells and tissues in vitro and modulation of wound electric field in vivo

Bing Song, Yu Gu, Jin Pu, Brian Reid, Zhiqiang Zhao, Min Zhao

Medical Sciences

Research output: Contribution to journal › Article › peer-review

249 Citations (Scopus)

Abstract

It has long been known that cells can be induced to migrate by the application of small d.c. electric fields (EFs), a phenomenon referred to as galvanotaxis. We recently reported some significant effects of electric signals of physiological strength in guiding cell migration and wound healing. We present here protocols to apply an EF to cells or tissues cultured in an electrotactic chamber. The chamber can be built to allow controlled medium flow to prevent the potential development of chemical gradients generated by the EFs. It can accommodate cells on planar culture or tissues in 3D gels. Mounted on an inverted microscope, this setup allows close and well-controlled observation of cellular responses to electric signals. As similar EFs are widely present during development and wound healing, this experimental system can be used to simulate and study cellular and molecular responses to electric signals in these events.

Original language	English
Pages (from-to)	1479-1489
Number of pages	11
Journal	Nature Protocols
Volume	2
Issue number	6
DOIs	https://doi.org/10.1038/NPROT.2007.205
Publication status	Published - Jun 2007

Keywords

embryonic muscle-cell
spinal-cord
notophthalmus-viridescens
orientation
regeneration
growth
newt
electrophoresis
receptors
migration

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10.1038/NPROT.2007.205

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title = "Application of direct current electric fields to cells and tissues in vitro and modulation of wound electric field in vivo",

abstract = "It has long been known that cells can be induced to migrate by the application of small d.c. electric fields (EFs), a phenomenon referred to as galvanotaxis. We recently reported some significant effects of electric signals of physiological strength in guiding cell migration and wound healing. We present here protocols to apply an EF to cells or tissues cultured in an electrotactic chamber. The chamber can be built to allow controlled medium flow to prevent the potential development of chemical gradients generated by the EFs. It can accommodate cells on planar culture or tissues in 3D gels. Mounted on an inverted microscope, this setup allows close and well-controlled observation of cellular responses to electric signals. As similar EFs are widely present during development and wound healing, this experimental system can be used to simulate and study cellular and molecular responses to electric signals in these events.",

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T1 - Application of direct current electric fields to cells and tissues in vitro and modulation of wound electric field in vivo

AU - Song, Bing

AU - Gu, Yu

AU - Pu, Jin

AU - Reid, Brian

AU - Zhao, Zhiqiang

AU - Zhao, Min

PY - 2007/6

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AB - It has long been known that cells can be induced to migrate by the application of small d.c. electric fields (EFs), a phenomenon referred to as galvanotaxis. We recently reported some significant effects of electric signals of physiological strength in guiding cell migration and wound healing. We present here protocols to apply an EF to cells or tissues cultured in an electrotactic chamber. The chamber can be built to allow controlled medium flow to prevent the potential development of chemical gradients generated by the EFs. It can accommodate cells on planar culture or tissues in 3D gels. Mounted on an inverted microscope, this setup allows close and well-controlled observation of cellular responses to electric signals. As similar EFs are widely present during development and wound healing, this experimental system can be used to simulate and study cellular and molecular responses to electric signals in these events.

KW - embryonic muscle-cell

KW - spinal-cord

KW - notophthalmus-viridescens

KW - orientation

KW - regeneration

KW - growth

KW - newt

KW - electrophoresis

KW - receptors

KW - migration

U2 - 10.1038/NPROT.2007.205

DO - 10.1038/NPROT.2007.205

M3 - Article

SN - 1750-2799

VL - 2

SP - 1479

EP - 1489

JO - Nature Protocols

JF - Nature Protocols

IS - 6

ER -

Application of direct current electric fields to cells and tissues in vitro and modulation of wound electric field in vivo

Abstract

Keywords

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