Biomedical Engineering Reference
In-Depth Information
22. Surekha, K. S., Ibrahim, M. B., Prashant, K. D., Arun, G. B., & Balu, A. C. (2010).
Biosurfactants, bioemulsifiers and exopolysaccharides from marine microorganisms,
Biotechnol Adv., 28(4), 436-450.
23. Raveendran, S., Poulose, A. C., Yoshida, Y., Maekawa, T., & Kumar, D. S.
(2013). Bacterial exopolysaccharide based nanoparticles for sustained drug
delivery, cancer chemotherapy and bioimaging, Carbohyd. Polym, 91(1),
22-32.
24. Iyer, A., Mody, K., & Jha, B. (2004). Accumulation of hexavalent chromium by an
exopolysaccharides producing marine Enterobacter cloacae. Mar. Pollut. Bull., 49,
974-977.
25. Das, P., Mukherjee, S., & Sen, R. (2009). Biosurfactant of marine origin exhibiting
heavy metal remediation properties. Bioresource Technol, 100, 4887-4890.
26. Touzel, J. P., Chabbert, B., Monties, B., Debeire, P., & Cathala, B. (2003).
Synthesis and characterization of dehydrogenation polymers in Gluconaceto-
bacter xylinus cellulose and cellulose/pectin composite. J. Agr. Food Chem.,
51(4), 981-986.
27. Sanchavanakit, N., Sangrungraungroj, W., Kaomongkolgit, R., Banaprasert,
T., Pavasant, P., & Phisalaphong, M. (2006). Growth of human keratinocytes
and fibroblasts on bacterial cellulose film. Biotechnol Progr., 22(4), 1194-
1199.
28. Vu. B., Chen, M., Crawford, R. J., & Ivanova, E. P. (2009). Bacterial Extracellular
polysaccharides involved in biofilm formation, Molecules, 14(7), 2535-2554.
29. Mehvar, R. (2000). Dextrans for targeted and sustained delivery of therapeu-
tic and imaging agents. J. Control. Release, 69(1), 1-25.
30. Harding, N., Patel, Y., & Coleman, R. (2004). Organization of genes required
for gellan polysaccharide biosynthesis in Sphingomonas elodea ATCC 31461.
J. Ind. Microbiol Biot, 31(2), 70-82.
31. Pereira, D. R., Silva-Correia, J., Caridade, S. G., Oliveira, J. T., Sousa, R. A.,
Salgado, A. J., Joaquim M. O., João F. M., Sousa, N., & Reis, R. L. (2011).
Development of gellan gum-based microparticles/hydrogel matrices for ap-
plication in the intervertebral disc regeneration. Tissue Engineering Part C:
Methods, 17(10), 961-972.
32. Harada, T., Misaki, A., & Saito, H. (1968). Curdlan A bacterial gel-forming
β-1, 3-glucan. Arch. Biochem. Biophys, 124, 292-298.
33. Provonchee, R. B., & Renn, D. W. (September 27, 1988). Polysaccharide
compositions, preparation and uses. U.S. Patent 4, 774,093.
34. Sabra, W., Zeng, A. P., & Deckwer, W. D. (2001). Bacterial Alginate Physiol-
ogy, product quality and process aspects. Appl. Microbial. Biot. 56(3), 315-
325.
35. Knill, C. J., Kennedy, J. F., Mistry, J., Miraftab, M., Smart, G., Groocock, M.
R., & Williams, H. J. (2004). Alginate fibers modified with unhydrolyzed and
hydrolyzed chitosans for wound dressings. Carbohyd. Polym, 55(1), 65-76.
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