1. Engineered channels enhance cellular density in perfused scaffolds.
- Author
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Kennedy, J.P., McCandless, S.P., Rauf, A., Williams, L.M., Hillam, J., and Hitchcock, R.W.
- Subjects
TISSUE scaffolds ,POLYURETHANES ,BIOREACTORS ,TISSUE engineering ,MESENCHYMAL stem cells ,COMPARATIVE studies - Abstract
Abstract: Scaffold-based tissue engineering provides cells with an engineered matrix to enhance and direct cell attachment, proliferation and differentiation. One critical limitation to current tissue engineering approaches is the inability to create densely populated constructs thicker than a few 100μm. We hypothesized that development of porous, channeled scaffolds would increase cell density and uniformity of their spatial distribution through scaffold channel perfusion. Patterned polyurethane sheets were fabricated using a sprayed phase separation technique and laminated together to form 1.5mm thick channeled scaffolds. Hydraulic permeability testing confirmed the presence of functional channels throughout the multilaminate construct. A continuous flow bioreactor was used to perfuse the construct with medium during the culture period. Cross-sectional cell densities and spatial uniformities were measured in channeled and nonchanneled scaffolds under different seeding and culture conditions. Channeled scaffolds were found to have higher densities of human mesenchymal stem cells than nonchanneled samples. Perfused scaffolds had more uniform spatial distribution of cells within the scaffold compared to statically cultured scaffolds. In conclusion, we have shown the channeled scaffolds to be a promising approach toward creating thick tissue-engineered constructs. [Copyright &y& Elsevier]
- Published
- 2011
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