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Scaffolds biodegradable polymeric

Oliveira, A.L., Costa, S.A., Sousa, R.A., and Reis, R.L. (2009) Nucleation and growth of biomimetic apatite layers on 3D plotted biodegradable polymeric scaffolds effect of static and dynamic coating conditions. Acta Biomater., 5 (5), 1626-1638. [Pg.244]

Hedberg, E.L., Kroese-Deutman, H.C., Shih, C.K., Crowther, R.S., Carney, D.H., Mikos, A.G., et al., 2005a. Effect of varied release kinetics of the osteogenic thrombin peptide TP508 from biodegradable, polymeric scaffolds on bone formation in vivo. Journal of Biomedical Materials Research A 72A (4), 343—353. [Pg.405]

Kim J, Yaszemski MJ, Lu L. Three-dimensional porous biodegradable polymeric scaffolds fabricated with biodegradable hydrogel porogens. Tissue Eng Part C Methods 2009 15(4) 583-94. [Pg.257]

Blends of collagen with other hydrophilic polymers can be used as good-quality hydrogels [434-439] and as biodegradable polymeric scaffolds, which are widely used in medical applications [42, 439-453]. [Pg.71]

Freed, L.E., Vunjak-Novakovic, G., Biron, RJ., Eagles, DB., Lesnoy, DC., Barlow, SK., and Danger, R. (1994) Biodegradable Polymeric Scaffolds for Tissue Engineering, BioTechnology, 12,689-693... [Pg.231]

Holland, T. A. and Mikos, A. G. Review Biodegradable Polymeric Scaffolds. Improvements in Bone Tissue Engineering through Controlled Drug Delivery. Vol. 102, pp. 161-185. [Pg.198]

Review Biodegradable Polymeric Scaffolds. Improvements in Bone Tissue Engineering through Controlled Drug Delivery... [Pg.241]

Tayton et al., [124] have shown that supercritical CO2 can be used to obtain biodegradable polymeric scaffolds in cell better compatibility and cohesion compared to non-porous counterparts. Rouholamin et al., [125] through of the control variables of supercritical CO2 foaming process, developed biopolymer scaffolds with controlled morphological properties and able to provide good support for cellular link between bone cells with cell viability for 7 days in culture. [Pg.10]

Gomes, M. E., Ribeiro, A. S., Malafaya, R. B., Reis, R. L., Cunha, A. M. (2001). A new approach based on injection moulding to produce biodegradable starch based polymeric scaffolds Morphology, mechanical, and degradation behaviour. Biomaterials., 22, 883-889. [Pg.459]

Recent research in polymeric biomaterials for engineermg skeletal tissues and/or soft tissues such as muscles or lungs is focused on development of three-dimensional (3D) biodegradable polymer scaffolds [ 106]. A candidate for construction of such 3D polymer scaffolds is a fiber mesh consisting of individual polymer fibers woven or knitted into 3D patterns of variable pore size [107]. [Pg.625]

Mountziaris, P.M., Tzouanas, S.N., Mikos, A.G. Dose effect of tumor necrosis factor-a on in vitro osteogenic differentiation of mesenchymal stem cells on biodegradable polymeric microfiber scaffolds. Biomaterials 31,1666-1675 (2010)... [Pg.31]

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See also in sourсe #XX -- [ Pg.664 ]



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