Hydrogels Based on Interpolymer Complexes of Sodium Alginate and Synthetic Polyacids
- Authors: Volkova I.F.1, Grigoryan E.S.1, Shandryuk G.A.1, Gorshkova M.Y.1
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Affiliations:
- Topchiev Institute of Petrochemical Synthesis, Russian Academy of Sciences
- Issue: Vol 65, No 1 (2023)
- Pages: 54-64
- Section: ПОЛИМЕРНЫЕ ГЕЛИ
- URL: https://journals.rcsi.science/2308-1120/article/view/135338
- DOI: https://doi.org/10.31857/S230811202370030X
- EDN: https://elibrary.ru/UYYESQ
- ID: 135338
Cite item
Abstract
Effect of the structure of synthetic polyacids on the formation and properties of their interpolymer complexes with sodium alginate is investigated. The hydrogels was shown to be predominantly formed via hydrogen bonds, with their type depending on the structure of polyacid and the amount of bound water. Study of the behavior of the hydrogels in water and phosphate-buffed saline with рН 7.2 demonstrates that the properties of the hydrogels are influenced by the ratio of components and the treatment temperature, in addition to the nature of polyacid. The possibility of using hydrogels as a basis for drug delivery systems is examined by the example of preparation lidocaine.
About the authors
I. F. Volkova
Topchiev Institute of Petrochemical Synthesis, Russian Academy of Sciences
Email: mgor@ips.ac.ru
119991, Moscow, Russia
E. S. Grigoryan
Topchiev Institute of Petrochemical Synthesis, Russian Academy of Sciences
Email: mgor@ips.ac.ru
119991, Moscow, Russia
G. A. Shandryuk
Topchiev Institute of Petrochemical Synthesis, Russian Academy of Sciences
Email: mgor@ips.ac.ru
119991, Moscow, Russia
M. Yu. Gorshkova
Topchiev Institute of Petrochemical Synthesis, Russian Academy of Sciences
Author for correspondence.
Email: mgor@ips.ac.ru
119991, Moscow, Russia
References
- Siqueira P., Siqueira É., De Lima A.E., Siqueira G., Pinzón-Garcia A.D., Lopes A.P., Segura M.E.C., Isaac A., Pereira F.V., Botaro V.R. // Nanomaterials. 2019. V. 9. № 1. P. 78.
- Haug A. Composition and Properties of Alginates. Trondheim.: Norwegian Institute of Seaweed Research, 1964.
- Draget K.I., Skjak-Braek G., Smidsrod O. // Carbohydr. Polym. 1994. 25. P. 31.
- Wang T., Zhang F., Zhao R., Wang C., Hu K., Sun Y., Politis C., Shvandi A. // Des. Monomers Polym. 2020. V. 23. № 1. P. 118.
- Wang X., Hao T., Qu J., Wang C., Chen H. // J. Nanomater. V. 2015. Article ID 970619.
- Chan A.W., Neufeld R.J. // Biomaterials. 2009. V. 30. P. 6119.
- Himadri Sekhar, Samanta Samit, Kumar Ray // Carbohydr. Polym. 2014. V. 99. P. 666.
- Wenbo Wang, Li Zong, Aiqin Wang // Int. J. Biol. Macromol. 2013. V. 62. P. 225.
- Mollah M.Z.I., Mubarak A. Khan, Hoque M.A. // Carbohydr. Polym. 2008. V. 72. № 2. P. 349.
- Wu Mingyue, Hu Xiangming, Zhang Qian, Zhao Yanyun, He Zhenglong // J. Cleaner Prod. 2020. V. 259. P. 120870.
- Larraneta E., Megan Henry M., Irwin N.J., Trotter J., Perminova A.A. // Carbohydr. Polym. 2018. V. 181. P. 1194.
- Mukherjee D., Azamthulla Md., Santhosh S., Dath G., Ghosh A., Natholia R., Anbu J., Tja B.V., Mazammil K.M. // J. Drug Delivery Sci. Tech. 2018. V. 46. P. 498.
- Li A., Gong T., Yang X., Guo Y. // Int. J. Biol. Macromol. 2020. V. 151. P. 257.
- Niu Y., Xia O., Na Li, Wang Z., Liangli (Lucy) Yu. // Food Chem. 2019. V. 270. P. 223.
- Rapee Khlibsuwan, Watcharee Khunkitti, Thaned Pongjanyakul // Int. J. Biol. Macromol. 2020. V. 1481. P. 1061.
- Wang L., Zhang J.H., Liu X., Liu Y., Zhu X., Liu X., You X. // ACS Appl. Polym. Mater. 2021. V. 3. № 6. P. 3197.
- Long Yu., Dean K., Li L // Progr. Polym. Sci. 2006. № 31. P. 576.
- Травинская Т.В., Пападокостаки K., Савельев Ю.В., Канелопоулос Н. // Reports National Acad. Sci. 2008. № 8. С. 144.
- Гусев И.В. Дис. … канд. техн. наук. М.: МГУ технологий и управления, 2015.
- Gorshkova M.Yu., Volkova I.F., Grigoryan E.S., Valuev L.I. // Polymer Science B. 2020. V. 62. № 6. P. 659.
- Volkova I.F., Gorshkova M.Yu., Ivanov P.E., Stotskaya L.L. // Polym. Adv. Techn. 2002. V. 13. P. 67.
- Наканиси К. Инфракрасные спектры и строение органических соединений. М.: Мир, 1965.
- Беллами Л. Новые данные по ИК-спектроскопии сложных молекул. М.: Мир, 1971.
- Lebedeva T.L., Feldstein M.M., Kuptsov S.A., Plate N.A. // Polymer Science A. 2000. V. 42. № 9. P. 989.
- Сильверстейн Р., Вебстер Ф., Кимл Д. Спектрометрическая идентификация органических соединений. М.: БИНОМ‒Лаборатория знаний, 2011.
- Kavwaguchi S., Kitano T., Ito K. // Macromolecules. 1992. V. 25. № 4. P. 1294.
- Kavwaguchi S., Kitano T., Ito K. // Macromolecules. 1991. V. 24. № 20. P. 6030.
- Горшкова M.Ю., Лебедева T.Л., Червина Л.В., Стоцкая Л.Л. // Высокомолек. соед. A. 1995. Т. 37. № 10. С. 1653.