![]() 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. Biodegradable and bioactive porous polymer/inorganic composite scaffolds for bone tissue engineering. 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. for incorporation of bioactive molecules and proteins within the scaffolds without. N2 - The rupture forces of porous alginate scaffolds seeded with hepatocytes or fibroblast-like cells increased during 3 d of culture and then decreased. To fabricate PLGA microspheres with a porous morphology, Chou et al. We investigated the use of cryogelation to form protein-based scaffolds through different types of formation mechanisms enzymatic crosslinking, chemical crosslinking, and non-covalent interactions. T1 - Transition of mechanical property of porous alginate scaffold with cells during culture period Dry hydrogels, either ‘xerogels’ or ‘aerogels’ are also known as the porous scaffolds and mainly prepared using the freeze-drying technique 31, 41. Successful tissue engineering with the aid of a polymer scaffold offers the possibility to produce a larger construct and to mould the shape after the defect. ![]()
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