Research ArticleNew Research, Integrative Systems

Charge-Balanced Electrical Stimulation Can Modulate Neural Precursor Cell Migration in the Presence of Endogenous Electric Fields in Mouse Brains

Stephanie N. Iwasa, Abdolazim Rashidi, Elana Sefton, Nancy X. Liu, Milos R. Popovic and Cindi M. Morshead
eNeuro 26 November 2019, 6 (6) ENEURO.0382-19.2019; https://doi.org/10.1523/ENEURO.0382-19.2019

Article Information

DOI 
https://doi.org/10.1523/ENEURO.0382-19.2019
PubMed 
31772032
Published By 
Society for Neuroscience
History 
  • Received September 23, 2019
  • Revision received November 5, 2019
  • Accepted November 8, 2019
  • Published online November 26, 2019.
Copyright & Usage 
Copyright © 2019 Iwasa et al. This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International license, which permits unrestricted use, distribution and reproduction in any medium provided that the original work is properly attributed.

Author Information

  1. Stephanie N. Iwasa1,2,5,
  2. Abdolazim Rashidi2,5,
  3. Elana Sefton1,2,5,
  4. Nancy X. Liu3,4,
  5. Milos R. Popovic1,2,5 and
  6. Cindi M. Morshead1,2,3,4,5
  1. 1Institute of Biomaterials and Biomedical Engineering, University of Toronto, Toronto, Ontario M5S 3G9, Canada
  2. 2KITE, Toronto Rehabilitation Institute, University Health Network, Toronto, Ontario M5G 2A2, Canada
  3. 3Department of Surgery, University of Toronto, Toronto, Ontario M5T 1P5, Canada
  4. 4Donnelly Centre for Cellular and Biomolecular Research, University of Toronto, Toronto, Ontario M5S 3E1, Canada
  5. 5CRANIA, University Health Network & University of Toronto, Toronto, Ontario M5G 2A2, Canada
  1. Correspondence should be addressed to Cindi M. Morshead at cindi.morshead{at}utoronto.ca.
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Author contributions

  1. Author contributions: S.N.I., M.R.P., and C.M.M. designed research; S.N.I. and E.S. performed research; S.N.I., N.X.L., and C.M.M. analyzed data; S.N.I. and C.M.M. wrote the paper; A.R. contributed unpublished reagents/analytic tools.

Disclosures

  • C.M.M. and M.R.P. hold a patent in biphasic electrical stimulation. All other authors declare no competing financial interests.

  • This work was supported by the Connaught Innovation Fund (C.M.M.) and the Ontario Institute of Regenerative Medicine (C.M.M., M.R.P.). S.N.I. was the recipient of the Barbara and Frank Milligan Award (University of Toronto), Health Commercialization Award (University of Toronto), and the Wildcat Graduate Scholarship (University of Toronto).

Funding

  • Connaught Innovation Fund

  • Ontario Institute for Regenerative Medicine (OIRM)

  • Barbara and Frank Milligan Award

  • Health Commercialization Awaard

  • Wildcat Graduate Scholarship

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Online Impact

 

Article usage

Article usage: November 2019 to April 2026

AbstractFullPdf
Nov 201993039
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Total 201949733234
Jan 20209539783
Feb 2020317932
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Total 202597853231
Jan 20261110625
Feb 20261116418
Mar 20261313148
Apr 2026105828
Total 202645459119
Total108154851730
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eneuro: 6 (6)
eNeuro
Vol. 6, Issue 6
November/December 2019
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Charge-Balanced Electrical Stimulation Can Modulate Neural Precursor Cell Migration in the Presence of Endogenous Electric Fields in Mouse Brains
Stephanie N. Iwasa, Abdolazim Rashidi, Elana Sefton, Nancy X. Liu, Milos R. Popovic, Cindi M. Morshead
eNeuro 26 November 2019, 6 (6) ENEURO.0382-19.2019; DOI: 10.1523/ENEURO.0382-19.2019
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