Tuneable synthetic reduced graphene oxide scaffolds elicit high levels of three-dimensional glioblastoma interconnectivity in vitro

Brown, Christopher J.; Simon, Thomas; Cilibrasi, Chiara; Lynch, Peter J.; Harries, Rhiannon W.; Graf, Aline Amorim; Large, Matthew J.; Ogilvie, Sean P.; Salvage, Jonathan P.; Dalton, Alan B.; Giamas, Georgios; King, Alice A. K.

Published in

Royal Society of Chemistry, Journal of Materials Chemistry B: Materials for biology and medicine, 3(10), p. 373-383, 2022

DOI: 10.1039/d1tb01266e

Tools

Export citation

Search in Google Scholar

Tuneable synthetic reduced graphene oxide scaffolds elicit high levels of three-dimensional glioblastoma interconnectivity in vitro

Journal article published in 2022 by Christopher J. Brown

, Thomas Simon

, Chiara Cilibrasi

, Peter J. Lynch

, Rhiannon W. Harries

, Aline Amorim Graf

, Matthew J. Large

, Sean P. Ogilvie

, Jonathan P. Salvage

, Alan B. Dalton

, Georgios Giamas

, Alice A. K. King

This paper was not found in any repository, but could be made available legally by the author.

Full text: Unavailable

Preprint: archiving allowed

Upload

Postprint: archiving restricted

Upload

Published version: archiving forbidden

Policy details

Data provided by

Abstract

A tuneable 3D scaffold of reduced graphene oxide from a scaleable lyophilisation technique is shown. Good biocompatibility, and a high degree of cellular interconnection in GBM is seen across the scaffold without the use of targeted growth factors.

Published in

Links

Tools

Tuneable synthetic reduced graphene oxide scaffolds elicit high levels of three-dimensional glioblastoma interconnectivity in vitro

Abstract