Rheological properties of polymer basis for hydrogel dressings for biomedical application

  • L. E. Agibayeva Faculty of Chemistry and Chemical Technology, al-Farabi Kazakh National University
  • R. A. Mangazbayeva Faculty of Chemistry and Chemical Technology, al-Farabi Kazakh National University
  • G. A. Mun Faculty of Chemistry and Chemical Technology, al-Farabi Kazakh National University

Abstract

This research was conducted in aim to develop the technology of obtaining new hydrogel dressings based on polyvinylpyrrolidone and agar-agar for treatment burns and wounds. Rheological parameters of polyvinylpyrrolidone and agar-agar solutions studied with the help of rotational viscometer Rheotest RV-2.1. The effect of different factors (concentration, temperature, thixotropy) on the rheological properties of polyvinylpyrrolidone and agar-agar solutions was investigated. determine the main regularities of intermolecular interaction processes that influence on structure formation in polyvinylpyrrolidone and agar-agar concentrative solutions.

References

1. Peppas N.A., Moynihan H.J. – In: Hydrogels in Medicine and Pharmacy. // Ed. N. Peppas. - CRC Press: Boca Raton, Fla. – 1987. – Vol. 3. – P. 49-64.
2. Mun G.A., Mangazbaeva R.A., Agibaeva L.Je., Shajhutdinov E.M. Izuchenie reologicheskih parametrov gidrogelja biomedicinskogo naznachenija // Izvestija NTO «KAHAK». – 2012. - №3 (37). - S. 14-17.
3. Ermuhambetova B.B., Rahmetullaeva R.K., Ishhanova A.K., Shajhutdinov E.M., Temirhanova G., Mun G.A., Zhurkabaeva A.B. Gidrogelevye povjazki biomedicinskogo naznachenija // Izvestija NTO «KAHAK». – 2012. – Spec. vypusk (39). - P. 118-123.
4. Shatabaeva E.O., Urkimbaeva P.I., Burasheva. G.S., Mun G.A. Development Of Hydrogelic Dressings Formulation Containing Biologically Active Additive // Mater. of VIII International Scientific and Practical Conference “Dynamics of scientific research 2012”, Poland. - 2012. - P.30-33.
5. Mun G. A., Suleimenov I.E., Agibayeva L., Tsoy M., Mangazbayeva R.A. Advanced printing devices based on the polymer hydrogels // The Proceedings of the Austrian- Slovenian Polymer Meeting 2013, 3–5 April 2013, Bled, Slovenia, S5-L45. - P. 87-88.
6. Kudaibergenov S., Yesmurzayeva N., Baygazieva E. Synthesis, characterization and catalytic activity of gold nanoparticles protected by poly(N‐vinylpyrrolidone) // The Proceedings of the Austrian- Slovenian Polymer Meeting 2013, 3–5 April 2013, Bled, Slovenia, S6-P56, P. 216-217.
7. Tumabaeva A.M., Sarova N.B., Zhatkanbaeva Zh.K., Karabaeva B.T., Temirhanova G.E., Mun G. Issledovanie vysvobozhdenija mestnogo anestetika – lidokaina gidrohlorida iz polimernoj matricy // Materialy mezhd.konf. «Sovremennye problemy obrazovanija i nauki v oblasti himii i himicheskoj inzhenirii». – Almaty, May, 30-31, 2013. – P. 3.
8. Ishhanova A.K., Mashanova A.B., Rahmetullaeva R.K., Mun G.A., Shajhutdinov E.M. Polimernye gidrogelevye povjazki strukturirovannye nanochasticami serebra // Materialy mezhd.konf. «Sovremennye problemy obrazovanija i nauki v oblasti himii i himicheskoj inzhenirii». – Almaty, May, 30-31, 2013. – P. 3.
9. Irmukhametova G.S., Shaikhutdinov E.M., Rakhmetullayeva R.K., Yermukhambetova B.B., Ishanova A.K., Temirkhanova G., Mun G.A. Nanostructured Hydrogel Dressings On Base Of Crosslinked Polyvinylpyrrolidone For Biomedical Application // Intern. conf. Frontiers of Mechanical Engineering, Materials and Energy (ICFMEME 2012), Beijing, China, 2012. - P. 57-62.
10. Beysebekov M.Q., A'bіlov J.A'. Da'rіlіk zattardi'ng poli''merlіk twi'ndi'lari'. – Almati': Qazaq wni''versi''tetі, 2004. – 81b.
11. Shilov I.B., Fomin S.V., Hlebov G.A. Issledovanie svojstv polimerov. Chast' 1. – Kirov: Izd-vo VjatGU, 2008. – 27p.
12. Muhamedzhanova M.Ju., Shirshova N.Ju., Fajzieva R. i dr. // Materialy Mezhdunarodnoj konferencii «Tekstil'-2002». – P. 126.
Published
2013-06-20
How to Cite
AGIBAYEVA, L. E.; MANGAZBAYEVA, R. A.; MUN, G. A.. Rheological properties of polymer basis for hydrogel dressings for biomedical application. International Journal of Biology and Chemistry, [S.l.], v. 5, n. 1, p. 36-43, june 2013. ISSN 2409-370X. Available at: <http://ijbch.kaznu.kz/index.php/kaznu/article/view/80>. Date accessed: 24 apr. 2019.

Keywords

Polyvinylpyrrolidone; agar-agar; hydrogel; dynamic viscosity; intermolecular interaction