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Microparticles of Alginate Calcium Gel Modified by Chitosan for Pulsative Delivery Of Rifampicine

Published online by Cambridge University Press:  26 February 2011

Erkesh O Batyrbekov
Affiliation:
[email protected], Institute of Chemical Sciences, Lab of Polymer Synthesis, 106 Walikhanov Street, Almaty, N/A, 050010, Kazakhstan, +7(3272)912457, +7(3272)912471
Rinat Iskakov
Affiliation:
[email protected], Institute of Chemical Sciences, Lab Polymer Synthesis
Karlygash Kombarova
Affiliation:
Aliya Tleumukhambetova
Affiliation:
[email protected], Institute of Chemical Sciences, Lab Polymer Synthesis
Bulat Zhubanov
Affiliation:
[email protected], Institute of Chemical Sciences, Lab Polymer Synthesis
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Abstract

The aim of this work is the development of controlled delivery system immobilized by antimicrobial drug rifampicine on the basis of microparticles of alginate calcium gel, modified by natural polymer chitosan. Modified microparticles were obtained by syringed dropwise a solution of rifampicine in solution of sodium alginate was into a mixed solution of chitosan in calcium chloride. The obtained modified alginate microparticles were contained immobilized rifampicine and a surface layer of chitosan. Effects of chithosan concentration and exposure duration on the thickness of polymer coating were determined. For the determination of surface thickness a red congo dye has been used able to form a complex with chitosan. It has been established that with an increase in the concentration of a polymer from 0,3 up to 1,5 mass % the thickness of the modified layer increases from 5 up to 60 mcm, and an increase of the time of gel exposition in a 2,5% solution of chitosan from 30 min to 24 h results in an increase in thickness of a layer from 5 up to 20 mcm respectively. When studying an influence of pH of the medium upon an interaction of alginate and chitosan it was been observed a formation of a polyelectrolyte complex between a chitosan polycation and an alginate polyanion stabilized by ionic bonds. The release of rifampicine from the modified alginate gel particles into a physiological solution with different thickness of a chitosan coating were studied. It was shown that the characteristic maximums on the curve of release observe after 10, 30, 90 and 120 min for the samples without the coating and with the coating thickness of 55, 100 and 150 mcm respectively. The data obtained shown a possibility of the regulation of the rate of rifampicine relase from the modified alginate particles by way of alternation of thickness of the chitosan coating.

Type
Research Article
Copyright
Copyright © Materials Research Society 2006

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References

1. Gebelain, C.G., Carraher, C.E. Bioactive Polymeric Systems. An Overview. Plenum, New York, 1985.Google Scholar
2. Zhubanov, B.A.., Batyrbekov, E.O., Iskakov, R.M. Polymeric materials of medicinal activity. Almaty: 2000. 220 p.Google Scholar
3. Sime, W.J.. Alginates. Food Gels. Ed.Harris P. Elsevier: London. 1989. P.5379.Google Scholar
4. Dumitriu, S. Polysaccharides as Biomaterials. Polymeric Biomaterials. Second Edition. Ed. Dimitriu, S. Marcel Dekker Inc.: N.Y. 2002. P.151.Google Scholar
5. Iskakov, R., Kikuchi, A., Okano, T. Time-programmed release of dextran from calcium- alginate gel beads coated with carboxy-n-propylacrylamide copolymers. Journ.Control. Rel. 2002. V. 80. P.5768.Google Scholar
6. Kikuchi, A., Kawabuchi, M., Sugihara, M., Sakurai, Y., Okano, T. Pulsed dextran release from calcium-alginate gel beads. Journ.Control. Rel. 1997. V. 47. P.2129.Google Scholar
7. Lee, K.Y., Park, W.H., Ha, W.S. Polyelectrolyte complexes of sodium alginate with chitosan or its derivatives for microcapsules. Journ.Appl.Polym.Sci.. 1997. V 63. P.425432 Google Scholar