| Name: | Description: | Size: | Format: | |
|---|---|---|---|---|
| 1.12 MB | Adobe PDF |
Advisor(s)
Abstract(s)
The design and production of scaffolds for bone tissue regeneration is yet unable to completely reproduce the native bone properties. In the present study new alginate microparticle and microfiber aggregated scaffolds were produced to be applied in this area of regenerative medicine.
The scaffolds' mechanical properties were characterized by thermo mechanical assays. Their morphological characteristics were evaluated by isothermal nitrogen adsorption and scanning electron microscopy. The density of both types of scaffolds was determined by helium pycnometry and mercury intrusion porosimetry. Furthermore, scaffolds' cytotoxic profiles were evaluated in vitro by seeding human osteoblast cells in their presence.
The results obtained showed that scaffolds have good mechanical and morphological properties compatible with their application as bone substitutes. Moreover, scaffold's biocompatibility was confirmed by the observation of cell adhesion and proliferation after 5 days of being seeded in their presence and by non-radioactive assays.
Description
Keywords
3D scaffolds Biocompatibility Biomaterials Bone Tissue Engineering In vitro studies
Citation
Valente, J., Valente, T.A.M., Alves, P., Ferreira, P., Silva, A.P. e Correia, I.J. (2012) "Alginate based scaffolds for bone tissue engineering", Materials Science & Engineering C - Materials for Biological Applications, Vol. 32(8), pp. 2596-2603