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Bone tissue engineering, injectable

Burdick JA, Anseth KS (2002) Photoencapsulation of osteoblasts in injectable RGD-modified PEG hydrogels for bone tissue engineering. Biomaterials 23 4315-4323... [Pg.160]

I. Bonzani, R. Adhikari, S. Houshyar, R. Mayadunne, R Gunatillake, M. Stevens, Synthesis of two-component injectable polyurethanes for bone tissue engineering. Biomaterials 28 (3) (2007) 423 33. [Pg.141]

Polyanhydrides have been developed into various systems with mainly bone tissue engineering applications in mind. These polymers have mechanical strength much lower than that of bone but have been combined with other polymers, such as poly(imide)s, to resolve this problem. Polyanhydrides have been developed into photo-cross-linkable systems, based on dimethacrylated anhydrides, and also injectable systems, but little interest into these polymers with regard to tissue engineering has been taken in the recent past [82]. [Pg.190]

Injectable nanocomposites of single-walled carbon nanotubes and biodegradable polymers for bone tissue engineering. Biomacromolecules, 1, 2237-2242. [Pg.89]

Sitharaman, B., Shi, X. F., Tran, L. A., Spicer, P. P., Rusakova, I., Wilson, L. J. Mikos, A. G. (2007) Injectable in situ cross-linkable nanocomposites of biodegradable polymers and carbon nanostructures for bone tissue engineering. Journal of Biomaterials Science - Polymer Edition, 18, 655-671. [Pg.90]

Matsuno, T., Hashimoto, Y., Adachi, S., Omata, K., Yoshitaka, Y., Ozeki, Y., Umezu, Y., Tabata, Y., Nakamura, M. Satoh, T. (2008) Preparation of injectable 3D-formed beta-tricalcium phosphate bead/alginate composite for bone tissue engineering. Dent Mater J, 27, 827-34. [Pg.176]

Bonzani IC, et al. Synthesis of two-component injectable polyurethanes for bone tissue engineering. Biomaterials 2007 28 423-33. [Pg.497]

F. Munarin, S.G. Guerreiro, M.A. Grellier, M.C. Tanzi, M.A. Barbosa, P. Petrini, and P.L. Granja, Pectin-based injectable biomaterials for bone tissue engineering. Biomacromolecules, 12 (3), 568-577, 2011. [Pg.184]

Recently, several microspheres have received much attention in the biomedical area of bone tissue engineering and regeneration because of their xmique properties for tissue regeneration as injectable scaffolds [114]. A novel PLCA-pMS was developed by Tao et al. by incorporating bovine serum albumin (BSA) loaded chitosan microspheres (CS-MS) in Cly-Arg-Cly-Asp-Ser-Pro-Cys (CRCDSPC) modified PLCA-pMS... [Pg.288]

Shi, X., J. L. Hudson, R P. Spicer, J. M. Tour, R. Krishnamoorti, and A. G. Mikos. 2005. Rheological behaviour and mechanical characterization of injectable poly(propylene fumarate)/single-walled carbon nanotube composites for bone tissue engineering. Nanotechnology 16 S531-8. [Pg.216]

Lee KY, Alsberg E and Mooney DJ. 2001. Degradable and injectable poly(aldehyde guluronate) hydrogels for bone tissue engineering. / Biomed Mater Res 56(2) 228-233. [Pg.668]

Biodegradable Injectable Systems for Bone Tissue Engineering... [Pg.419]

Figure 14.2 Schematic representing the concept behind injectable bone tissue engineering. Figure 14.2 Schematic representing the concept behind injectable bone tissue engineering.
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Bone tissue engineering

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