Frontiers in Materials (Mar 2020)

Enhancing the Conductivity of Cell-Laden Alginate Microfibers With Aqueous Graphene for Neural Applications

  • Marilyn C. McNamara,
  • Amir Ehsan Niaraki-Asli,
  • Amir Ehsan Niaraki-Asli,
  • Jingshuai Guo,
  • Jasmin Okuzono,
  • Reza Montazami,
  • Nicole N. Hashemi,
  • Nicole N. Hashemi

DOI
https://doi.org/10.3389/fmats.2020.00061
Journal volume & issue
Vol. 7

Abstract

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Microfluidically manufacturing graphene-alginate microfibers create possibilities for encapsulating rat neural cells within conductive 3D tissue scaffolding to enable the creation of real-time 3D sensing arrays with high physiological relavancy. Cells are encapsulated using the biopolymer alginate, which is combined with graphene to create a cell-containing hydrogel with increased electrical conductivity. Resulting novel alginate-graphene microfibers showed a 2.5-fold increase over pure alginate microfibers, but did not show significant differences in size and porosity. Cells encapsulated within the microfibers survive for up to 8 days, and maintain ~20% live cells over that duration. The biocompatible aqueous graphene suspension used in this investigation was obtained via liquid phase exfoliation of pristine graphite, to create a graphene-alginate pre-hydrogel solution.

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