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Skeletal muscle tissue engineering

Skeletal muscle tissue engineering requires a considerably different structure than the two other tissues discussed above. The main concern with skeletal muscle regeneration is the alignment and maturation of large multinucleated muscle fibers. [Pg.200]

Elowsstm L, Kirsebom H, Carmignac V, Mattiasson B, Durbeej M (2013) Evaluation of macroporous blood and plasma scaffolds for skeletal muscle tissue engineering. Biomater Sci 4 402- 8... [Pg.277]

Qazi TH, Mooney DJ, Pumberger M, GeiBler S, Duda GN. Biomaterials based strategies for skeletal muscle tissue engineering existing technologies and future trends. Biomaterials 2015 53 502-21. [Pg.204]

Borschel, G.H., Dennis, R.G., Kuzon Jr., W.M., 2004. Contractile skeletal muscle tissue-engineered on an acellular scaffold. Plast. Reconstr. Surg. 113, 595—602 discussion 603-604. [Pg.487]

Chen, M.C., Sun, Y.C., Chen, Y.H., 2013. Electrically conductive nanolibers with highly oriented structures and their potential application in skeletal muscle tissue engineering. Acta Biomater. 9, 5562—5572. [Pg.488]

Mckeon-Fischer, K.D., Flagg, D.H., Freeman, J.W., 2011. Coaxial electiospim polyfepsilon-caprolactone), multiwaUed carbon nanotubes, and polyaciylic acid/polyvinyl alcohol scaffold for skeletal muscle tissue engineering. J. Biomed. Mater. Res. A 99, 493—499. [Pg.492]

Ostrovidov, S., Hosseini, V., Ahadian, S., Fujie, T., Parthiban, S.P., RamaUngam, M., Bae, H., Kaji, H., Khademhosseini, A., 2014. Skeletal muscle tissue engineering methods to form skeletal myotubes and their appUcations. Tissue Eng. Part B Rev. 20, 403—436. [Pg.492]

Riboldi, S.A., Sampaolesi, M., Neuenschwander, P., Cossu, G., Mantero, S., 2005. Electrospun degradable polyesterurethane membranes potential scaffolds for skeletal muscle tissue engineering. Biomaterials 26, 4606—4615. [Pg.493]

Saxena, A.K., Marler, J., Benvenuto, M., Willital, G.H., Vacanti, J.P., 1999. Skeletal muscle tissue engineering using isolated myoblasts on synthetic biodegradable polymers preliminary studies. Tissue Eng. 5, 525—532. [Pg.494]

Stem-Straeter, J., Riedel, F., Bran, G., Hermann, K., Goessler, U.R., 2007. Advances in skeletal muscle tissue engineering. In Vivo 21,435-444. [Pg.120]

Riboldi, S. A., et al., Electrospun Degradable PolyesterurethaneMembranes Potential Scaffolds for Skeletal Muscle Tissue Engineering. Biomaterials, 2005, 26(22), 4606-4615. [Pg.183]

Fischer RDM, Freeman JW (2010) Characterization of electrospun poly(L-lactide) and gold nanoparticle composite scaffolds for skeletal muscle tissue engineering. J Tissue Eng Regen M 5 560... [Pg.428]

Martins, P.M., Ribeiro, S., Ribeiro, C., Sencadas, V., Gomes, A.C., Gama, F.M., et al., 2013. Effect of poling state and morphology of piezoelectric poly(vinylidene fluoride) membranes for skeletal muscle tissue engineering. RSC Adv. 3 (39), 17938-17944. [Pg.94]

See other pages where Skeletal muscle tissue engineering is mentioned: [Pg.201]    [Pg.248]    [Pg.204]    [Pg.477]    [Pg.487]    [Pg.490]    [Pg.237]    [Pg.111]    [Pg.165]   
See also in sourсe #XX -- [ Pg.200 ]

See also in sourсe #XX -- [ Pg.476 , Pg.477 ]



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