Gelatin hydrogels

Chatterjee S., Bohidar H.B. 2005. Effect of cationic size on gelation temperature and properties of gelatin hydrogels. International Journal of Biological Macromolecules 35, 81-88. [Pg.111]

Yamamoto M, Tabata Y, Bcada Y (1999) Growth factor release from gelatin hydrogel for tissue engineering. J Bioact Compat Polym 14 474-489... [Pg.161]

Tabata Y, Hijikata S, Ikada Y (1994) Enhanced vascularization and tissue granulation by basic fibroblast growth factor impregnated in gelatin hydrogels. J Control Rel 31 189-199... [Pg.163]

Chen FM, Zhao YM, Sun HH, Jin T, Wang QT, Zhou W, Wu ZF, Jin Y (2007) Novel gly-cidyl methacrylated dextran (dex-gma)/gelatin hydrogel scaffolds containing microspheres loaded with bone morphogenetic proteins formulation and characteristics. J Control Release 118(1) 65—77... [Pg.127]

Carbodiimides are also used to crosslink wool, hair in permanent wave composition, and bovin lutotropin. Similarly, carbodiimides are used as gelatin hardeners promoting crosslinking via a reaction of carboxyls with amino groups. Also, gelatin hydrogels are crosslinked with water soluble carbodiimides. ... [Pg.253]

Whether a polymer is hydrophilic or hydrophobic can be explained by the X interaction. However, why the air/hydrogel interface of a gelatin hydrogel is hydrophobic cannot be explained by x interaction because it is a strictly interfacial phenomenon that is governed by the interfacial interaction. The strictly interfacial phenomena could be explained by 7 interaction. The first term in Eq. (25.1) is x interaction and the second term is 7 interaction. The overall rate of surface dynamic change is, therefore, dependent on both 7 interaction and x interaction [7]. Thus,... [Pg.513]

Sundararaghavan HG, Metter RB, Burdick JA (2010) Electrospun fibrous scaffolds with multiscale and photopattemed porosity. Macromol Biosci 10(3) 265-270 Vanderhooft JL et al (2009) Rheological properties of cross-linked hyaluronan-gelatin hydrogels for tissue engineering. Macromol Biosci 9( l) 20—28... [Pg.127]

Kasahara H, et al. (2003). Biodegradable gelatin hydrogel potentiates the angiogenic effect of fibroblast growth factor 4 plasmid in rabbit hindlimb ischemia. J. Am. Coll. Cardiol. 41 1056-1062. [Pg.1051]

Saito, T. Tabata, Y Preparation of gelatin hydrogels incorporating small interfering RNA for the controlled release. 7. Drug Target. December 2012, 20 (10), 864-872. [Pg.612]

Pal, K., A.K. Banthia, and D.K. Majumdar, Preparation and characterization of polyvinyl alcohol-gelatin hydrogel membranes for biomedical applications. AAPS PharmSciTech, 2007. 8(1) E142-E146. [Pg.1064]

Beier, J. R, Kneser, U., Horch, R. E., Detsch, R., Boccaccini, A. R., and Arkudas, A. (2014). In vitro and in vivo biocompatibility of alginate dialdehyde/gelatin hydrogels with and without nanoscaled bioactive glass for bone tissue engineering applications, 7,1957-1974. [Pg.528]

Skardal A, Zhang H, McCoard L, Xu X, Oottamasathien S and Prestwich G D (2010c), Photocrosslinkable hyaluronan-gelatin hydrogels for two-step bioprinting , Tissue... [Pg.22]

Nagae, M., Ikeda, T., Mikami, Y., Hase, H., Ozawa, H., Matsuda, K., Sakamoto, H., Tahata, Y., Kawat,a M., Kubo, T. 2007. Intervertebral disc regeneration using platelet-rich plasma and biodegradable gelatin hydrogel microspheres. Tissue Eng 13(1), 147-158. [Pg.224]

Fukunaka Y, Iwanaga K, Morimoto K, Kakemi M, Tabata Y, Controlled release of plasmid DNA from cationized gelatin hydrogels based on hydrogel degradation. J... [Pg.258]

SCHEME 1 Proposed mechanistic pathway for synthesis of PAM g-gelatin hydrogel. [Pg.282]

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