Colin Sherborne scite author profile

Polymerised High Internal Phase Emulsions (PolyHIPEs) are manufactured via emulsion templating and exhibit a highly interconnected microporosity. These materials are commonly used as thin membranes for 3D cell culture. This study uses emulsion templating in combination with microstereolithography to fabricate PolyHIPE scaffolds with a tightly controlled and reproducible architecture. This combination of methods produces hierarchical structures, where the microstructural properties can be independently controlled from the scaffold macrostructure. PolyHIPEs were fabricated with varying ratios of two acrylate monomers (2-ethylhexyl acrylate (EHA) and isobornyl acrylate (IBOA)) and varying nominal porosity to tune mechanical properties. Young’s modulus, ultimate tensile stress (UTS) and elongation at failure were determined for twenty EHA/IBOA compositions. Moduli ranged from 63.01±9.13 to 0.36±0.04 MPa, UTS from 2.03±0.33 to 0.11±0.01 MPa and failure strain from 21.86±2.87% to 2.60±0.61%. Selected compositions were fabricated into macro-porous woodpile structures, plasma treated with air or acrylic acid and seeded with human embryonic stem-cell derived mesenchymal progenitor cells (hES-MPs). Confocal and two-photon microscopy confirmed cell proliferation and penetration into the micro- and macro-porous architecture. The scaffolds supported osteogenic differentiation of mesenchymal cells and interestingly, the stiffest IBOA-based scaffolds that were plasma treated with acrylic acid promoted osteogenesis more strongly than the other scaffolds.

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Emulsion templated scaffolds manufactured from photocurable polycaprolactone

Dikici

Sherborne

Reilly

et al. 2019

Polymer

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Macrostructuring of Emulsion‐templated Porous Polymers by 3D Laser Patterning

et al. 2013

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Assessment of the Angiogenic Potential of 2-Deoxy-D-Ribose Using a Novel in vitro 3D Dynamic Model in Comparison With Established in vitro Assays

Dikici

Bhaloo

et al. 2020

Front. Bioeng. Biotechnol.

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Light-based additive manufacturing of PolyHIPEs: Controlling the surface porosity for 3D cell culture applications

Sherborne

Owen²,

Reilly³

et al. 2018

Materials & Design

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Colin Sherborne

Emulsion templated scaffolds with tunable mechanical properties for bone tissue engineering

Emulsion templated scaffolds manufactured from photocurable polycaprolactone

Macrostructuring of Emulsion‐templated Porous Polymers by 3D Laser Patterning

Assessment of the Angiogenic Potential of 2-Deoxy-D-Ribose Using a Novel in vitro 3D Dynamic Model in Comparison With Established in vitro Assays

Light-based additive manufacturing of PolyHIPEs: Controlling the surface porosity for 3D cell culture applications

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