Synthesis of Polyvinyl Pirrolidone (PVC) /Κ-Carrageenan Hydrogel Prepared by Gamma Radiation Processing As a Function of Dose and PVP Concentration

https://doi.org/10.22146/ijc.21324

Erizal Erizal(1*), Tjahyono Tjahyono(2), Dian PP(3), Darmawan Darmawan(4)

(1) Centre for the Application of Isotopes and Radiation Technology, BATAN, Jl. Lebak Bulus Raya No.49, Pasar Jumat, Jakarta 12070
(2) Centre for the Application of Isotopes and Radiation Technology, BATAN, Jl. Lebak Bulus Raya No.49, Pasar Jumat, Jakarta 12070
(3) Centre for the Application of Isotopes and Radiation Technology, BATAN, Jl. Lebak Bulus Raya No.49, Pasar Jumat, Jakarta 12070
(4) Centre for the Application of Isotopes and Radiation Technology, BATAN, Jl. Lebak Bulus Raya No.49, Pasar Jumat, Jakarta 12070
(*) Corresponding Author

Abstract


The aim of this research is to prepare a biomaterial to be used in health care. A series of hydrogels based on polyvinyl pyrrolidone (PVP)/κ-Carrageenan (KC) has been prepared by radiation technique. PVP (5-15%) were mixed with ΚC (2%) and irradiated by gamma rays at the doses from 25 kGy to 35 kGy (dose rate 7 kGy/h) at room temperature. The chemical change of hydrogels was characterized using Fourier Transform infra Red (FTIR). Gel fraction, water absorption and water evaporation were determined gravimetrically. Tensile strength and elongation at break was measured using Instron meter. It was found that with the increase irradiation dose and PVP concentration, the gel fraction and tensile strength of hydrogels increase. In contrast the elongation at break and water absorption of hydrogels decrease. The hydrogel of PVP/KC hydrogel produced by gamma radiation can be considered for wound dressings.

Keywords


hydrogel; polyvinyl pyrrolidone; κ-Carrageenan; gamma radiation

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References

[1] Xu, J., Li, X., and Sun, F., 2010, Acta Biomater., 6, 2, 486–493.

[2] Xinming, L., Yingde, C., Lloyd, A.W., Mikhalovsky, S.V., Sandeman, S.R., Howel, C.A., and Liewen, L., 2008, Cont. Lens Anterior Eye, 31, 2, 57–64.

[3] McConville, P., and Pope, J.M., 2000, Polymer, 41, 26, 9081–9088.

[4] Tiwari, A., Grailer, J.J., Pilla, S., Steeber, D.A., and Gong, S., 2009, Acta Biomater., 5, 9, 3441–3452.

[5] Chang, C., Peng, N., He, M., Teramoto, Y., Nishio, Y., and Zhang, L., 2013, Carbohydr. Polym., 91, 1, 7–13.

[6] Bailey, B.M., Fei, R., Munoz-Pinto, D., Hahn, M.S., and Grunlan, M.A., 2012, Acta Biomater., 8, 12, 4324–4333.

[7] Zu, W., Li, Y., Liu, L., Chen, Y., and Xi, F., 2012, Int. J. Pharm., 437, 1-2, 11–19.

[8] Gupta, P., Vermani, K., and Garg, S., 2002, Drug Discovery Today, 7, 10, 569–579.

[9] Josef, E., Zilberman, M., and Bianco-Peled, H., 2010, Acta Biomater., 6, 12, 4642–4649.

[10] Ji, C., and Shi, J., 2012, Mater. Lett, 72, 110–112.

[11] Geever, L.M., Cooney, C.C., Lyons, J.G., Kennedy, J.E., Nugent, M.J.D., Devery, S., and Higginbotham, C.L., 2008, Eur. J. Pharm. Biopharm., 69, 3, 1147–1159.

[12] Witthayaprapakorn, C., 2011, Procedia Eng., 8, 286–291.

[13] Kokabi, M., Sirousazar, M., and Hassan, Z.M., 2007, Eur. Polym. J., 43, 773–781.

[14] Wang, M., Xu, L., Hu, H., Zhai, M.L., Peng, J., Nho, Y.C., Li, J.Q., and Wei, G.S., 2007, Nucl. Instrum. Methods Phys. Res., Sect. B, 265, 385–389.

[15] Lugão, A.B., Rogero, S.O., and Malmonge, S.M., 2002, Radiat. Phys. Chem., 63, 543–546.

[16] Thomas, S.R., http:/emedicine.com/ent/Topic13 htm, uploaded in 26 November 2012.

[17] Rosiak, J.M., and Ulański, P, 1999, Radiat. Phys. Chem., 55, 2, 139–151.

[18] Rosiak, J.M., Ulański, P., Pajewski, L.A., Yoshii, F., and Makuuchi, K., 1995, Radiat. Phys. Chem., 46, 2, 161–168.

[19] Burey, P., Bhandari, B.R., Howes, T., and Gidley, M.J, 2008, Crit. Rev. Food Sci. Nutr., 48, 5, 361–377.

[20] Pereira, L., and van de Velde, F., 2011, Carbohydr. Polym., 84, 1, 614–623.

[21] Phillips, G.O., Williams, P.A. Handbook of Hydrocolloids, Woodhead Publishing Limited, England, 2000, 87–101.

[22] Lee, J.S., Lo, Y.L., and Chye, F.Y. 2008, Sains Malaysiana, 37, 1, 71–77.

[23] Michael, P.T., and Stephen, E.H., 1997, An Introduction to Polysaccharide Biotechnology, Taylor & France, 147–149.

[24] Abad, L.V., Relleve, L.S., Aranilla, C.T., and Dela-Rosa, A.M., 2003, Radiat. Phys. Chem., 68, 5, 901–908.



DOI: https://doi.org/10.22146/ijc.21324

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