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Amidation tissue engineering

P. Karimi, A.S. Rizkalla, K. Mequanint, Versatile biodegradable poly (ester amide)s derived from a-amino acids for vascular tissue engineering. Materials 3 (4) (2010) 2346-2368. [Pg.372]

Conductive polymer nanocomposites may also be used in different electrical applications such as the electrodes of batteries or display devices. Linseed oil-based poly(urethane amide)/nanostuctured poly(l-naphthylamine) nanocomposites can be used as antistatic and anticorrosive protective coating materials. Castor oil modified polyurethane/ nanohydroxyapatite nanocomposites have the potential for use in biomedical implants and tissue engineering. Mesua ferrea and sunflower seed oil-based HBPU/silver nanocomposites have been found suitable for use as antibacterial catheters, although more thorough work remains to be done in this field. ° Sunflower oil modified HBPU/silver nanocomposites also have considerable potential as heterogeneous catalysts for the reduction of nitro-compounds to amino compounds. Castor oil-based polyurethane/ epoxy/clay nanocomposites can be used as lubricants to reduce friction and wear. HBPU of castor oil and MWCNT nanocomposites possesses good shape memory properties and therefore could be used in smart materials. ... [Pg.303]

Hemmrich K, Salber J, Meersch M, Wiesemann U, Gries T, PaUua N, Klee D. Three-dimensional nonwoven scaffolds from a novel biodegradable poly(ester amide) for tissue engineering applications. Journal of Materials Science Materials in Medicine 2008 19 257-67. [Pg.112]

Amid, G. E., J. J. Yoo, and A. Atala. 2000. Renal tissue engineering using a collagen-based kidney matrix. Tissue Eng Suppl. 6 685. [Pg.681]

Tyrosine-based polycarbonates have been reported as promising degradable polymers for use as tissue engineering scaffolds in orthopaedic applications [85]. These polymers possess three potentially hydrolysable bonds amide, carbonate and ester. Studies have shown [85] that the carbonate group hydrolyzes at a faster rate than the ester group, and the amide bond is not labile in vitro. [Pg.27]

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See also in sourсe #XX -- [ Pg.119 , Pg.125 , Pg.130 ]



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