Biomedical Engineering Reference
In-Depth Information
70. Wang, W., McConaghy, A. M., Tetley, L., and Uchegbu, I. F. 2001. Controls on polymer molecu-
lar weight may be used to control the size of palmitoyl glycol chitosan polymeric vesicles.
Langmuir 17: 631-636.
71. Nishimura, S. Miura, Y., Ren, L., Sato, M., Yamagishi, A., Nishi, N., Tokura, S., Kurita, K., and
Ishii, S. 1993. An efficient method for the syntheses of novel amphiphilic polysaccharides by
regio- and thermoselective modifications of chitosan. Chem Lett 22: 1623-1626.
72. Xu, J., McCarthy, S. P., and Gross, R. A. 1996. Chitosan film acylation and effects on biodegrad-
ability. Macromolecules 29: 3436-3440.
73. Rout, D. K., Pulapura, S. K., and Gross, R. A. 1993. Gel-sol transition and thermotropic behav-
ior of a chitosan derivative in lyotropic solution. Macromolecules 26: 6007-6010.
74. Wu, Y., Dong, Y. Zhou, F., Ruan, Y., Wang, H., and Zhao, Y. 2003. Studies on the critical phase-
transition behavior of cholesteric N-phthaloyl chitosan/dimethyl sulfoxide solutions by five
techniques. J Appl Polym Sci 90: 583-586.
75. Seo, T., Ohtake, H., Unishi, T., and Iijima, T. 1995. Permeation of solutes through chemically
modified chitosan membranes. J Appl Polym Sci 58: 633-644.
76. Hirano, S., Zhang, M., Chung, B. G., and Kim, S. K. 2000. The N-acylation of chitosan fibre and
the N-deacetylation of chitin fibre and chitin-cellulose blended fibre at a solid state. Carbohydr
Polym 41: 175-179.
77. Hirano, S. and Moriyasu, T. 2004. Some novel N -(carboxyacyl)chitosan filaments. Carbohydr
Polym 55: 245-248.
78. Aiping, Z., Tian, C., Lanhua, Y., Hao, W., and Ping, L. 2006. Synthesis and characterization of
N -succinyl-chitosan and its self-assembly of nanospheres. Carbohydr Polym 66: 274-279.
79. Jiang, G. B., Quan, D., Liao, K., and Wang, H. 2006. Preparation of polymeric micelles based on
chitosan bearing a small amount of highly hydrophobic groups. Carbohydr Polym 66: 514-520.
80. Nishimura, S., Kohgo, O., Ishii, S., Hurita, K., Mochida, K., and Kuzuhara, H. 1992. New trends
in bioactive chitosan derivatives: Use of “standardized intermediates” with excellent solubility
in common organic solvents. In Advances in Chitin and Chitosan , Brine, C. J., Sandford, P. A., and
Zikakis, J. P., eds, London: Elsevier, pp. 533-542.
81. Dong, Y. M., Mao, W., Wang, H. W., Zhao, Y. Q., Bi, D. X., and Yang, L. L. 2006. Electron micro-
scopic studies on planar texture and disclination of cholesteric mesophases in acyloyl chito-
san/acrylic acid composite films. Carbohydr Polym 65: 42-48.
82. Dong, Y. M., Mao, W., Wang, H. W., Zhao, Y. Q., Li, X. J., and Bi, D. X. 2006. Measurement of
critical concentration for mesophase formation of chitosan derivatives in both aqueous and
organic solutions. Polym Int 55: 1444-1449.
83. Xu, C., Pan, H., Jiang, H., Tang, G., and Chen, W. 2008. Biocompatibility evaluation of
N , O -hexanoyl chitosan as a biodegradable hydrophobic polycation for controlled drug release.
J Mater Sci-Mater Med 19: 25-32.
84. Muzzarelli, R. A. A. 1988. Carboxymethylated chitins and chitosans. Carbohydr Polym 8: 1-21.
85. Chen, S. C., Wu, Y. C., Mi, F. L., Lin, Y. H., Yu, L. C., and Sung, H. W. 2004. A novel pH-sensitive
hydrogel composed of N , O -carboxymethyl chitosan and alginate cross-linked by genipin for
protein drug delivery. J Control Release 96: 285-300.
86. Thanou, M., Nihot, M. T., Jansen, M., Verhoef, J. C., and Junginger, H. E. 2001. Mono- N -
carboxymethyl chitosan (MCC), a polyampholytic chitosan derivative, enhances the intestinal
absorption of low molecular weight heparin across intestinal epithelia in vitro and in vivo.
J Pharm Sci 90: 38-46.
87. Chen, Y. and Tan, H. M. 2006. Cross-linked carboxymethylchitosan-g-poly(acrylic acid) copoly-
mer as a novel superabsorbent polymer. Carbohydr Res 341: 887-896.
88. Sui, W., Wang, S., Chen, G., and Xu, G. 2004. Surface and aggregate properties of an amphiphilic
derivative of carboxymethylchitosan. Carbohydr Res 339: 1113-1118.
89. Zhu, A. P., Liu, J. H., and Ye, W. H. 2006. Effective loading and controlled release of camptoth-
ecin by O- carboxymethylchitosan aggregates. Carbohydr Polym 63: 89-96.
90. Mourya, V. K. and Inamdar, N. N. 2008. Chitosan-modifications and applications: Opportunities
galore. React Funct Polym 68: 1013-1051.
Search WWH ::




Custom Search