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Bone, collagen tissue engineering

PLGA Bone tissue engineering Collagen mineralization process induced the formation of nanosize carbonated hydroxyapatite, while nanosize hydroxyapatite is formed during PLGA mineralization Liao et al. (2008)... [Pg.202]

Ngiam M et al (2009) The fabrication of nano-hydroxyapatite on PLGA and PLGA/collagen nanofibrous composite scaffolds and their effects in osteoblastic behavior for bone tissue engineering. Bone 45(1) 4—16... [Pg.211]

M. Deng, et al.. Cellulose and collagen derived micro-nano structured scaffolds for bone tissue engineering, J. Biomed. Nanotech-nol. 9 (2013) 719-731. [Pg.60]

The approach of making porous composites of P(3HB-co-3HV) with sol-gel bioactive glass (SGBG) and calcium phosphate-loaded collagen (CaP-Gelfix) foams have been tried for bone-tissue engineering. It was found to be useful since it showed formation of a HA layer on the surface of P(3HB-co-3HV)/SGBG... [Pg.405]

E. Hirata, M. Uo, H. Takita, T. Akasaka, F. Watari, A. Yokoyama, MultiwaUed carbon nano-tube-coating of 3D collagen scaffolds for bone tissue engineering. Carbon 49 (10) (2011) 3284-3291. [Pg.73]

Reffitt DM, Ogston N, Jugdaohsingh R, Cheung HFJ, Evans BAJ, Thompson RPH, Powell JJ, Hampson GN (2003) Orthosilicic acid stimulates collagen type 1 synthesis and osteoblastic differentiation in human osteoblast-like cells in vitro. Bone 32 127-135 Sapelkin AV, Bayliss SC, Unal B, Charalambou A (2006) Interaction of B50 rat hippocampal cells with stain-etched porous silicon. Biomaterials 27 842-846 Sun W, Puzas JE, Sheu T-J, Liu X, Fauchet PM (2007) Porous silicon as a cell interface for bone-tissue engineering. Adv Mater 19 921-924... [Pg.517]

B. Sarker, S. Lyer, A. Arkudas, and A.R. Boccaccini, Collagen/silica nanocomposites and hybrids for bone tissue engineering, Nanotechnology Reviews, 2 (4), 427-447,2013. [Pg.481]

Murphy, C. M., Haugh, M. G., and O Brien, F. J. (2010). The effect of mean pore size on cell attachment, proliferation and migration in collagen-glicosaminoglycan scaffolds for bone tissue engineering. Biomaterials 31, 461 66. [Pg.391]

Zheng, W., Zhang, W., and Jiang, X. (2010). Bio-mimetic collagen nanofibrous materials for bone tissue engineering. Advanced Engineering Materials, 12(9), 6451 65. [Pg.393]

Ber, S., Torun Kose, G., Hasirca, V., 2005. Bone tissue engineering on patterned collagen films an in vitro study. Biomaterials 26 (14), 1977—1986. [Pg.59]

Li, X., Feng, Q., Wang, W., Cui, R, 2006. Chemical characteristics and cytocompatibility of collagen based scaffold reinforced by chitin fibers for bone tissue engineering. J. Biomed. Mater. Res. B Appl. Biomater. 77 (2), 219-226. [Pg.60]

Rodrigues, C., Serricella, R, Linhares, A., Guerdes, R., Borojevic, R., Rossi, M., Duarte, M., Farina, M., 2003. Characterization of a bovine collagen-hydroxyapatite composite scaffold for bone tissue engineering. Biomaterials 24 (27), 4987-4997. [Pg.60]

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See also in sourсe #XX -- [ Pg.54 , Pg.57 ]



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