The phenomenon was independent of the number of viable cells within the scaffolds, but dependent on protein adsorption to the alginate as well as a reduction in the degree of crosslinks of the calcium-alginate gel. Different materials have been proposed for use as three-dimensional porous scaffolds for bone tissue engineering procedures. The phenomenon was independent of the number of viable cells within the scaffolds, but dependent on protein adsorption to the alginate as well as a reduction in the degree of crosslinks of the calcium-alginate gel.ĪB - The rupture forces of porous alginate scaffolds seeded with hepatocytes or fibroblast-like cells increased during 3 d of culture and then decreased. pore size distribution, pore volume, and pore interconnectivity. This approach represents the bulk of biomaterial research in tissue engineering. potential of AM technologies to design tailor-made scaffolds to properly guide cell. Since the birth of tissue engineering 65, 114, seeding therapeutic cells in pre-made porous scaffolds made of degradable biomaterials has become the most commonly used and well-established scaffolding approach. N2 - The rupture forces of porous alginate scaffolds seeded with hepatocytes or fibroblast-like cells increased during 3 d of culture and then decreased. Pre-made porous scaffolds for cell seeding. T1 - Transition of mechanical property of porous alginate scaffold with cells during culture period
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