Biomedical Engineering Reference
In-Depth Information
Reactive Dyes ond Metal Ions on Chitosan.
Wa -
ter Res
.
35
, 613-618.
Xing, R., Liu, S., Guo, Z., Yu, H., Wang, P., Li,
C., Li, Z., and Li, P. (2005). Relevance of mo-
lecular weight of chitosan and its derivatives and
their antioxidant activities
in vitro
.
Bioorg. Med.
Chem
.
13
(5), 1573-1577.
Yilmaz, M., Memon, S., Tabakci, M., and
Bartsch, R. A. (2006). In:
New Frontiers in Poly-
mer Research
,
R. K. Bregg (Ed.). Nova Science
Publishers, Hauppauge NY, pp. 125-171.
YoneKura, L. and Suzuki, H. (2003). Some poly-
saccharides improve zinc bioavailability in rats
fed a phytic acid-containing diet.
Nutrition Re-
search
23
(3), 343-355.
Yoshida, H., Okamoto, A. and Kataoka, T.
(1993). Adsorption of acid dye on cross-linked
chitosan fibers--Equilibria.
Chem. Eng. Sci
.
48
,
2267.
Zalloum, H., Al-Qodah, Z., and Mubarak, M. S.,
(2009). Copper Adsorption on Chitosan-Derived
Schiff Bases.
J. Macromol. Sci. A: Pure Appl
Chem
46
, 1-12.
clavipes.
Polymers for Advanced Technologies
5
(8), 401-410.
Davidenko, N., Carrodeguas, R., Peniche, C.,
SolĂs, Y., and Cameron, R. (2010). Chitosan/
apatite composite beads prepared by in situ gen-
eration of apatite or Si-apatite nanocrystals.
Acta
Biomaterials
6
, 466-476.
Di Martino, A., Sittinger, M., and Risbud, M.
(2005). Chitosan: a A versatile biopolymer for
orthopaedic tissue-engineering.
Biomaterials
26
,
5983-5990.
Disa, J., Alizadeh, K., Smith, J., Hu, Q., and
Cordeiro, P. (2001). Evaluation of a combined
calcium sodium alginate and bio-occlusive
membrane dressing in the management of split-
thickness skin graft donor sites.
Annals of Plastic
Surgery
46
, 405.
Engelberg, I. and Kohn, J. (1991). Physico-me-
chanical properties of degradable polymers used
in medical applications: A comparative study.
Biomaterials
12
(3), 292-304.
Fan, H., Liu, H., Wong, E. J. W., Toh, S. L.,
and Goh, J. C. H. (2008).
In vivo
study of an-
terior cruciate ligament regeneration using mes-
enchymal stem cells and silk.
Biomaterials
29
,
3324-3337.
Felt, O., Carrel, A., Baehni, P., Buri, P., and
Gurny, R. (2000). Chitosan as tear substitute: a
wetting agent endowed with antimicrobial ef-
ficacy.
Journal of Ocular Pharmacology and
Therapeutics
16
, 261-270.
Fini, M., Motta, A., Torricelli, P., Giavaresi, G.,
Nicoli Aldini, N., Tschon, M., Giardino, R., and
Migliaresi, C. (2005). The healing of confined
critical size cancellous defects in the presence
of silk fibroin hydrogel.
Biomaterials
26
, 3527-
3536.
Foldvari, M. (2000). Non-invasive administra-
tion of drugs through the skin: Challenges in
delivery system design.
Pharmaceutical Science
and Technology Today
3
, 417-425.
Freddi, G., Romano, M., Massafra, M. R., and
Tsukada, M. (1995). Silk fibroin/cellulose blend
films: Preparation, structure, and physical prop-
erties.
Journal of Applied Polymer Science
56
,
1537.
Freddi, G., Tsukada, M., and Beretta, S. (1999).
Structure and physical properties of silk fibroin/
2
Altman, G. H., Diaz, F., Jakuba, C., Calabro, T.,
Horan, R. L., Chen, J., Lu, H., Richmond, J., and
Kaplan D. L. (2003). Silk-based biomaterials.
Biomaterials
24
(3), 401-416.
Arai, T., Freddi, G., Colonna, G., Scotti, E., Bos-
chi, A., Murakami, R., and Tsukada, M. (2001).
Absorption of metal cations by modified B. mori
silk and preparation of fabrics with antimicrobial
activity.
Journal of Applied Polymer Science
80
,
297-303.
Arai, T., Freddi, G., Innocenti, R., and Tsukada,
M. (2004). Biodegradation of
Bombyx mori
silk
fibroin fibers and films.
Journal of Applied Poly-
mer Science
91
, 2383-2390.
Artan, M., Karadeniz, F., Karagozlu, M. Z., Kim,
M. M., and Kim, S. K. (In press). Anti-HIV-1 ac-
tivity of low molecular weight sulfated chitooli-
gosaccharides. Carbohydrate Research.
Cunniff, P., Fossey, S., Auerbach, M., Song, J.,
Kaplan, D., Adams, W., Eby, R., Mahoney, D.,
and Vezie, D. (1994). Mechanical and thermal
properties of dragline silk from the spider Nephila
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