Exploring Chitosan-Derived Biocomposites for Advanced Applications in Dental Implantology
Keywords:
dentistry, dental implants, composite materials, osseointegration, chitosan
Abstract
The unique properties of Bombyx mori chitosan from silkworm pupae (biocompatibility, bioresorbability, non-toxicity, antibacterial properties, hemostaticity) will find wide application in therapeutic, surgical and orthopedic dentistry. The use of chitosan from local sources of raw materials will be in demand for the creation of bioactive coatings on dental implants in domestic dentistry.
References
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3. Chang, PC Evaluation of functional dynamics during osseointegration and regeneration associated with oral implants: a review / R. Chang // Clin. Oral Implants Res. - 2010. - No. 21 (1). - P. 1–12
4. Muzzarelli R., Biagini G. et al. Osteoconduction exerted by methylpyrrolidinone chitosan used in dental surgery // Biomaterials. - 1993. - Vol.14. - No. 1. - P. 39-43.
5. Muzzarelli R., Biagini G. et al. Reconstruction of paradontal tissue with chitosan // Biomaterials. - 1989. - Vol.10. - No. 11. - P. 598-603.
6. Muzzarelli R., Biagini G. et al. Osteoconductive properties of methylpyrrolidinone chitosan in an animal model // Biomaterials. - 1993. - Vol.14. - No. 12. - P. 925-929.
7. Muzzarelli R., Baldassarre V. et al. Biological activity of chitosan: ultrastructural study // Biomaterials. - 1988. - Vol.9. - No. 5. - P. 247-252.
8. Shomina S.A. The use of chitosan in the treatment of acute inflammatory diseases of the maxillofacial region. Diss. Cand. honey. sciences. - Tver. - 2002 .-- 195s.
9. Maygurov A., Solntsev A., Bolshakov I. et al. The use of chitosan in the treatment of inflammatory diseases of the oral cavity. Modern perspectives in the study of chitin and chitosan. Materials of the VIII international conference. - Publishing house "VNIRO". - M. - 2006. - p. 224-227.
10. Zhang Y., Song J., Shi B. et al. Combination of scaffold and adenovirus vector expressing bone regeneration at dental implant defects // Biomaterials. - 2007. - Vol.28. –N.31.– P.4635-4642.
11. Park YJ, Kim KH, Lee JY et al. Immobilization of bone morphogenetic protein-2 on a nanofibrous chitosan membrane for enhanced guided bone regeneration // Biotechnol. Appl.Biochem. - 2006. - Vol.43 - Pt.1 - P.17-24.
12. Ito M. In vitro properties of a chitosan-bonded hydroxyapatite bone-filling paste // Biomaterials. - 1991. - Vol.12. - No. 1. - P. 41-45.
13. Murugan R., Ramakrishna R. Bioresorbable composite bone paste using polysaccharide based nanohydroxyapatite // Biomaterials. - 2004. - Vol.25. - P. 3829-3835.
14. Murugan R, Kumar S et al. Hydroxyl carbonateapatite hybrid bone composites using carbohydrate polymer // J. of Composite Materials. - 2005. - Vol.39. - No. 13. - P.1159-1166.
15. Tarsi R., Muzzarelli R. Guzman C. et al. Inhibition of Streptococus mutans. Adsorption of hydroxyapatite by low-molecular weight chitosans // J. Dent. Research. - 199
16. Velichkov AD, Nikolova SF, Vejanov DK // CR Acfd. Bulg. Sci. - 1989. - Vol.42. -№3.- P.81-84. (cit. According to No. 10 Gorovoy L., Kosyakov V.) 7. - Vol.76. -№ 2. - P. 665-672.
17. Cho BC, Park JW, Baik BS et al. The role of hyaluronic acid, chitosan, and calcium sulfate and their combined effect on early bony consolidation in distraction osteogenesis of a canine model // J. Craniofac. Surg. - 2002. - Vol.13. - P.783-793.
18. Kawakami T., Antoh M., Hasegawa H. et al. Experimental study on osteoconductive properties of a chitosan-bonded hydroxyapatite self-hardening paste // Biomaterials. - 1992. –Vol. 13. - P.759-763.
19. Yin Y., Ye F., Cui J. et al. Preparation and characterization of macroporous chitosan gelatin / beta-tricalcium phosphate composite scaffolds for bone tissue engineering // J. Biomed. Mater. Res. - 2003. - Vol.63A. - P.844-855.
20. Bumgardner JD, Wiser R, Elder SH et al. Contact angle, protein adsorption and osteoblast precursor cell attachment to chitosan coatings bonded to titanium // J. Biomater. Sci. Polym Ed. - 2003. - Vol.14. - 1401-9.
21. Wang X., Ma J., Wang Y., He B. Bone repair in radii and tibias of rabbits with phosphorylated chitosan reinforced calcium phosphate cements // Biomaterials. - 2002. Vol.23. - P.4167-76.
22. Rashidova S.Sh., Milusheva R.Yu. “Chitin and chitosan Bombyx mori. Synthesis, properties and application ”, Tashkent, FAN Publishing House, 2009, p. 246.
Published
2023-12-14
How to Cite
F. K. Usmonov, N.L. Khabilov, & T. O. Mun. (2023). Exploring Chitosan-Derived Biocomposites for Advanced Applications in Dental Implantology. Central Asian Journal of Medical and Natural Science, 4(6), 1016-1021. Retrieved from https://www.cajmns.centralasianstudies.org/index.php/CAJMNS/article/view/2180
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Articles
