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Enhancing the hydrophilicity and cell attachment of 3D printed PCL/graphene scaffolds for bone tissue engineering

Enhancing the hydrophilicity and cell attachment of 3D printed PCL/graphene scaffolds for bone tissue engineering
Enhancing the hydrophilicity and cell attachment of 3D printed PCL/graphene scaffolds for bone tissue engineering
Scaffolds are physical substrates for cell attachment, proliferation, and differentiation, ultimately leading to the regeneration of tissues. They must be designed according to specific biomechanical requirements, i.e., certain standards in terms of mechanical properties, surface characteristics, porosity, degradability, and biocompatibility. The optimal design of a scaffold for a specific tissue strongly depends on both materials and manufacturing processes, as well as surface treatment. Polymeric scaffolds reinforced with electro-active particles could play a key role in tissue engineering by modulating cell proliferation and differentiation. This paper investigates the use of an extrusion-based additive manufacturing system to produce poly(ε-caprolactone) (PCL)/pristine graphene scaffolds for bone tissue applications and the influence of chemical surface modification on their biological behaviour. Scaffolds with the same architecture but different concentrations of pristine graphene were evaluated from surface property and biological points of view. Results show that the addition of pristine graphene had a positive impact on cell viability and proliferation, and that surface modification leads to improved cell response.
Wang, Weiguang
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Caetano, Guilherme
48f206cb-891d-4705-8591-a1c2d964ffbf
Frade, MARCO ANDREY CIPRIANI
37a4d8ed-a744-4c1f-9344-75683a6c8663
Mandal, Parthasarathi
038d14c8-1751-43c3-a3d9-06507f9ebe21
Diver, Carl
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Da Silva Bartolo, Paulo Jorge
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Wang, Weiguang
0cc699c0-e7b3-49d0-8c84-1e9d63f747d8
Caetano, Guilherme
48f206cb-891d-4705-8591-a1c2d964ffbf
Frade, MARCO ANDREY CIPRIANI
37a4d8ed-a744-4c1f-9344-75683a6c8663
Mandal, Parthasarathi
038d14c8-1751-43c3-a3d9-06507f9ebe21
Diver, Carl
29b1f17d-dd3b-4d44-be6d-dba1d76c1e26
Da Silva Bartolo, Paulo Jorge
2c085472-871d-4ac1-8767-23e5fe9703cf

Wang, Weiguang, Caetano, Guilherme, Frade, MARCO ANDREY CIPRIANI, Mandal, Parthasarathi, Diver, Carl and Da Silva Bartolo, Paulo Jorge (2016) Enhancing the hydrophilicity and cell attachment of 3D printed PCL/graphene scaffolds for bone tissue engineering. Materials, 9 (12). (doi:10.3390/ma9120992).

Record type: Article

Abstract

Scaffolds are physical substrates for cell attachment, proliferation, and differentiation, ultimately leading to the regeneration of tissues. They must be designed according to specific biomechanical requirements, i.e., certain standards in terms of mechanical properties, surface characteristics, porosity, degradability, and biocompatibility. The optimal design of a scaffold for a specific tissue strongly depends on both materials and manufacturing processes, as well as surface treatment. Polymeric scaffolds reinforced with electro-active particles could play a key role in tissue engineering by modulating cell proliferation and differentiation. This paper investigates the use of an extrusion-based additive manufacturing system to produce poly(ε-caprolactone) (PCL)/pristine graphene scaffolds for bone tissue applications and the influence of chemical surface modification on their biological behaviour. Scaffolds with the same architecture but different concentrations of pristine graphene were evaluated from surface property and biological points of view. Results show that the addition of pristine graphene had a positive impact on cell viability and proliferation, and that surface modification leads to improved cell response.

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Accepted/In Press date: 25 November 2016
Published date: 7 December 2016

Identifiers

Local EPrints ID: 497811
URI: http://eprints.soton.ac.uk/id/eprint/497811
DOI: doi:10.3390/ma9120992
PURE UUID: b532db84-6bce-4171-9139-d60c647982d7
ORCID for Weiguang Wang: ORCID iD orcid.org/0000-0002-8959-329X

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Date deposited: 31 Jan 2025 18:09
Last modified: 22 Aug 2025 02:46

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Contributors

Author: Weiguang Wang ORCID iD
Author: Guilherme Caetano
Author: MARCO ANDREY CIPRIANI Frade
Author: Parthasarathi Mandal
Author: Carl Diver
Author: Paulo Jorge Da Silva Bartolo

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