Examples



mdbootstrap.com



 
Статья
2022

Obtaining chitosan nanoparticles from Bombyx mori


R. Yu. MilushevaR. Yu. Milusheva, S. Sh. RashidovaS. Sh. Rashidova
Российский химический вестник
https://doi.org/10.1007/s11172-022-3402-9
Abstract / Full Text

Chitosan nanoparticles (CS NPs) with sizes of 100–700 nm were isolated from Bombyx mori. The NPs were obtained by fractional precipitation in the presence of a surface modifier and ionotropic gelation. The optimal chitosan concentrations and ratios: precipitant—chitosan solution, chitosan solution—stabilizer were experimentally determined. AFM study of CS NPs was carried out. The influence of the conditions of formation of nanoparticles on their size and stability was determined.

Author information
  • Institute of Polymer Chemistry and Physics of the Academy of Sciences of Uzbekistan, 7b prosp. A. Kadyri, 100128, Tashkent, UzbekistanR. Yu. Milusheva & S. Sh. Rashidova
References
  1. H. Yi, L. Q. Wu, W. E. Bentley, R. Ghodssi, G. W. Rubloff, J. N. Culver, G. F. Payne, Biomacromolecules, 2005, 6, 2881–2894.
  2. M. Huang, C. W. Fong, E. Khor, L. Y. Lim, J. Control Release, 2005, 106, 391–406.
  3. D. Vasquez, R. Milusheva, P. Baumann, D. Constantin, M. Chami, C. Palivan, Langmuir, 2014, 30, 965–975.
  4. U. Guliyeva, F. Oner, S. Ozsoy, R. Haziroglu, Eur. J. Pharm. Biopharm., 2006, 62, 17–25.
  5. S. Mansouri, P. Lavigne, K. Corsi, M. Benderdour, E. Beaumont, J. C. Fernandes, 2004, Eur. J. Pharm. Biopharm., 57, 1–8.
  6. D. Peer, J. M. Karp, S. Hong, O. C. Farokhzad, R. Margalit, R. Langer, Nat. Nano, 2007, 2, 751–760
  7. H. Zhang, S. H. Neau, Biomaterials, 2002, 23, 2761–2766.
  8. G. Wang, P. Li, Z. Peng, M. F. Huang, L. X. Kong, Adv. Materials Res., 2011, 335, 474–477.
  9. H. Peniche, C. Peniche, Polym. Int., 2011, 60, 883–889.
  10. R. Yu. Milusheva, S. Sh. Rashidova, Khitin, khitozan Bombyx mori i nanosistemy na ikh osnove [Bombyx Mori Chitin, Chitosan and Nanosystems Based on Them], Fan, Tashkent, 2016, 247 pp. (in Russian).
  11. J. P. Nam, C. Choi, M. K. Jang, Y. I. Jeong, J. W. Nah, S. H. Kim, Y. Park, Macromol. Res., 2010, 18, 630–635.
  12. Z. Liu, Y. Jiao, F. Liu, Z. Zhang, J. Biomed. Mater. Res., 2007, 83A, 806–812.
  13. M. Bodnar, J. F. Hartmann, J. Borbely, J. Biomacromolecules, 2005, 6, 2521–2527.
  14. A. M. Bellocq, J. Biais, P. Bothorel, B. Clin, G. Fourche, P. Lalanne, Adv. Colloid Interface Sci., 1984, 20, 167–272.
  15. T. Banerjee, S. Mitra, K. Singh, K. Sharma, A. Maitra, Int. J. Pharm., 2002, 243, 93–105.
  16. R. Manchanda, S. Nimesh, J. Appl. Polym. Sci., 2010, 118, 2071–2077.
  17. L. Zhang, Z. L. Zhao, X. H. Wei, J. H. Liu, Int. J. Nanomedicine, 2013, 8, 601–610.
  18. Y. Hu, X. Jiang, Y. Ding, H. Ge, Y. Yuan, C. Yang, Biomaterials, 2002, 23, 3193–3201.
  19. T. Gazori, M. R. Khoshayand, E. Azizi, P. Yazdizade, A. Nomani, I. Haririan, Carbohydr. Polym., 2009, 77, 599–606.
  20. N. Bhattarai, H. R. Ramay, S. H. Chou, M. Zhang, Int. J. Nanomedicine, 2006, 1, 181–187.
  21. K. M. Gregorio-Jauregui, M. G. Pineda, J. E. Rivera-Salinas, G. Hurtado, H. Saade, J. Martinez, J. Nanomater., 2012, 8, 129–137.
  22. T. S. Demina, Yu. S. Sotnikova, A. V. Istomin, Ch. Grandfils, T. A. Akopova, A. N. Zelenetskii, Adv. Mater. Sci. Eng., 2018, 2018, 8518016.
  23. A. V. Istomin, T. S. Demina, E. N. Subcheva, T. A. Akopova, A. N. Zelenetskii, Fibre Chem., 2016, 48, I. 3, 199–201.
  24. Yu. S. Sotnikova, T. S. Demina, A. V. Istomin, G. P. Goncharuk, Ch. Grandfils, T. A. Akopova, A. N. Zelenetskii, P. G. Babayevsky, IOP Conf. Ser.: Mater. Sci. Eng., 2018, 347, 012006; DOI: https://doi.org/10.1088/1757-899X/347/1/012006.
  25. L. A. Zemskova, D. Kh. Shlyk, A. V. Voit, N. N. Barinov, Russ. Chem. Bull., 2019, 68, 9.
  26. R. Yu. Milusheva, K. K. Pirniyazov, S. Sh. Rashidova, Vestn. Tver. Gos. Un-ta. Khim. [Tver State Univ. Bull. Chem.], 2016, 2, pp. 119–124 (in Russian).
  27. M. A. Martynov, K. A. Vylegzhanina, Rentgenografiya polimerov: Metodicheskoe posobie dlya promyshlennykh laboratorii [Polymer X-ray Spectroscopy: Methodological Guide for Industrial Laboratories], Khimiya, Leningrad, 1972, 96 pp. (in Russian).
  28. V. A. Klimova, Osnovnye mikrometody analiza organicheskikh soedinenii [Basic Micromethods for the Analysis of Organic Compounds], Khimiya, Moscow, 2001, 75 pp. (in Russian).
  29. Gosudarstvennaya farmakopeya SSSR [State Pharmacopoeia of the USSR], XI, 2012, Meditsina, Moscow, t. 2, p. 24 (in Russian).
  30. Gosudarstvennaya farmakopeya SSSR [State Pharmacopoeia of the USSR], XI, 1987, Meditsina, Moscow, t. 1, p. 175 (in Russian).
  31. A. I. Gamzazade, B. M. Shlimak, A. M. Sklyar, E. V. Stykova, S. A. Pavlova, S. V. Rogozin, Acta. Polym., 1985, 36, No. 8, 421–424.
  32. N. V. Pogodina, G. M. Pavlov, S. V. Bunin, A. V. Men’shikov, Vysokomolek. soedineniya [High Molecular Weight Compounds], 1986, 28, pp. 232–239 (in Russian).
  33. A. Vila, A. Sanchez, K. A. Janes, I. Behrens, T. Kissel, J. L. Vila—Jato, M. J. Alonso, Eur. J. Pharm. Biopharm., 2004, 57, 123–131.
  34. Y. Pan, Y. J. Li, H. Y. Zhao, J. M. Zheng, H. Xu, G. Wei, J. S. Hao, F. D. Cui, Int. J. Pharm., 2002, 249, 139–147.
  35. Y. Huang, Y. Lapitsky, Langmuir, 2011, 27, 103–129.
  36. E. N. Koukaras, S. A. Papadimitriou, D. N. Bikiaris, G. E. Froudakis, Mol. Pharm., 2012, 9, 2856–2862.
  37. Q. Gan, T. Wang, C. Cochrane, P. M. Carron, Colloid Surf., 2005, 44, 65–73.
  38. T. Lopez-Leon, E. L. Carvalho, B. Seijo, J. L. Ortega-Vinuesa, D. Bastos-Gonzalez, J. Colloid Interface Sci., 2005, 283, 344–351.
  39. S. Sreekumar, F. M. Goycoolea, M. B. Moerschbacher, R. Gustavo, I. Rivera-Rodriguez, Sci. Rep., 2018, 8, 4695, DOI: https://doi.org/10.1038/s41598-018-23064-4.
  40. J. Antoniou, Colloids Surf. Physicochem. Eng. Asp., 2014, 465, 137–146.
  41. W. Fan, W. Yan, Z. Xu, H. Ni, Colloids Surf. B, 2012, 90, 21–7.
  42. R. Ndjouenkeu, F. M. Goycoolea, E. R. Morris, J. O. Akingbala, Carbohydr. Polym., 1996, 29, 263–269.
  43. A. A. Zubareva, D. V. Kurek, V. P. Varlamov, C. B. Sizova, E. V. Svirshchevskaya, Nanotechnologies in Russia, 2012, 7, No. 7–8, pp. 428–433.
  44. A. A. Zubareva, Abstract of Ph. D. Thesis (Chem.), M. M. Shemyakin and Yu. A. Ovchinnikov Institute of Bioorganic Chemistry of the Russian Academy of Sciences, Moscow, 2013, 24 pp. (in Russian).