Search Results - "Pawelec, K. M"

Altering crystal growth and annealing in ice-templated scaffolds by Pawelec, K. M, Husmann, A, Best, S. M, Cameron, R. E

“…The potential applications of ice-templating porous materials are constantly expanding, especially as scaffolds for tissue engineering. Ice-templating, a…”
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The effects of scaffold architecture and fibrin gel addition on tendon cell phenotype by Pawelec, K. M., Wardale, R. J., Best, S. M., Cameron, R. E.

“…Development of tissue engineering scaffolds relies on careful selection of pore architecture and chemistry of the cellular environment. Repair of skeletal soft…”
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Engineering a platform for nerve regeneration with direct application to nerve repair technology by Pawelec, K.M., Yoon, C., Giger, R.J., Sakamoto, J.

“…The development of effective treatment options for repair of peripheral nerves is complicated by lack of knowledge concerning the interactions between cells…”
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A design protocol for tailoring ice-templated scaffold structure by Pawelec, K. M., Husmann, A., Best, S. M., Cameron, R. E.

“…In this paper, we show, for the first time, the key link between scaffold architecture and latent heat evolution during the production of porous biomedical…”
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Microstructure and in vivo characterization of multi-channel nerve guidance scaffolds by Pawelec, K M, Koffler, J, Shahriari, D, Galvan, A, Tuszynski, M H, Sakamoto, J

“…In a previous study, we demonstrated a novel manufacturing approach to fabricate multi-channel scaffolds (MCS) for use in spinal cord injuries (SCI). In the…”
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Ionic solutes impact collagen scaffold bioactivity by Pawelec, K. M., Husmann, A., Wardale, R. J., Best, S. M., Cameron, R. E.

“…The structure of ice-templated collagen scaffolds is sensitive to many factors. By adding 0.5 wt% of sodium chloride or sucrose to collagen slurries, scaffold…”
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Scaffold architecture and fibrin gels promote meniscal cell proliferation by Pawelec, K. M., Best, S. M., Cameron, R. E., Wardale, R. J.

“…Stability of the knee relies on the meniscus, a complex connective tissue with poor healing ability. Current meniscal tissue engineering is inadequate, as the…”
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Understanding anisotropy and architecture in ice-templated biopolymer scaffolds by Pawelec, K.M., Husmann, A., Best, S.M., Cameron, R.E.

“…Biopolymer scaffolds have great therapeutic potential within tissue engineering due to their large interconnected porosity and biocompatibility. Using an…”
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Collagen scaffolds as a tool for understanding the biological effect of silicates by Pawelec, K.M., Shepherd, J., Jugdaohsingh, R., Best, S.M., Cameron, R.E., Brooks, R.A.

“…Dietary silicon is essential in the maintenance of bone and cartilage. However, the mechanism by which silicon, in the form of silicates, triggers a biological…”
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