Journal article

Cell compatible encapsulation of filaments into 3D hydrogels

KSU Schirmer, R Gorkin, S Beirne, E Stewart, BC Thompson, AF Quigley, RMI Kapsa, GG Wallace

Biofabrication | IOP PUBLISHING LTD | Published : 2016

Abstract

Tissue engineering scaffolds for nerve regeneration, or artificial nerve conduits, are particularly challenging due to the high level of complexity the structure of the nerve presents. The list of requirements for artificial nerve conduits is long and includes the ability to physically guide nerve growth using physical and chemical cues as well as electrical stimulation. Combining these characteristics into a conduit, while maintaining biocompatibility and biodegradability, has not been satisfactorily achieved by currently employed fabrication techniques. Here we present a method combining pultrusion and wet-spinning techniques facilitating incorporation of pre-formed filaments into ionicall..

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University of Melbourne Researchers

Grants

Awarded by Australian Laureate Fellowship scheme


Funding Acknowledgements

The authors would like to acknowledge the Australian Laureate Fellowship scheme (FL110100196) for funding and the Australian National Fabrication Facility (ANFF) for use of staff, especially Adam Taylor and Robyn Hutchinson and facilities. The authors would like to thank Syamak Farajikhah for supplying star shaped PLA filaments and Rouhollah Jalili and Dorna Esrafilzadeh for assistance in the fabrication of rGO:PPy fibres. The authors also acknowledge Nora Broichschutz and her support with illustrations.