Copyright (c) 2015 AJC
This work is licensed under a Creative Commons Attribution 4.0 International License.
Swelling Properties of Poly(N-isopropylacrylamide)/Calcium Alginate Interpenetrating Polymer Network Hydrogel containing Zirconia
Corresponding Author(s) : Ing Hong Ooi
Asian Journal of Chemistry,
Vol. 27 No. 9 (2015): Vol 27 Issue 9
Abstract
Temperature-responsive poly(N-isopropylacrylamide)/calcium alginate interpenetrating polymer network hydrogels contaning different percentages of zirconia were prepared and evaluated for their swelling properties. The pore size of the interpenetrating polymer network hydrogels decreased with increasing content of zirconia. Incorporation of zirconia into the interpenetrating polymer network hydrogel decreased its ability to swell at temperatures below its lower critical solution temperature but resulted in larger shrinkages at temperatures above its lower critical solution temperature. The swelling-deswelling behaviour of the interpenetrating polymer network hydrogels between 25 °C and 37 °C was, however, rapid, responsive and reproducible.
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References
L. He, Q. Zuo, S. Xie, Y. Huang and W. Xue, Recent Pat. Drug Deliv. Formul., 5, 265 (2011); doi:10.2174/187221111797200533.
G. Pasparakis and M. Vamvakaki, Polym. Chem., 2, 1234 (2011); doi:10.1039/c0py00424c.
F. Liu and M.W. Urban, Prog. Polym. Sci., 35, 3 (2010); doi:10.1016/j.progpolymsci.2009.10.002.
L. Klouda and A.G. Mikos, Eur. J. Pharm. Biopharm., 68, 34 (2008); doi:10.1016/j.ejpb.2007.02.025.
K.B. Doorty, T.A. Golubeva, A.V. Gorelov, Y.A. Rochev, L.T. Allen, K.A. Dawson, W.M. Gallagher and A.K. Keenan, Cardiovasc. Pathol., 12, 105 (2003); doi:10.1016/S1054-8807(02)00165-5.
R.A. Stile and K.E. Healy, Biomacromolecules, 2, 185 (2001); doi:10.1021/bm0000945.
D.C. Coughlan and O.I. Corrigan, Int. J. Pharm., 313, 163 (2006); doi:10.1016/j.ijpharm.2006.02.005.
M.T. Calejo, S.A. Sande and B. Nyström, Expert Opin. Drug Deliv., 10, 1669 (2013); doi:10.1517/17425247.2013.846906.
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M. Xiong, B. Gu, J.D. Zhang, J.J. Xu, H.Y. Chen and H. Zhong, Biosens. Bioelectron., 50, 229 (2013); doi:10.1016/j.bios.2013.06.030.
G.Q. Zhang, L.S. Zha, M.H. Zhou, J.H. Ma and B.R. Liang, Colloid Polym. Sci., 283, 431 (2005); doi:10.1007/s00396-004-1172-6.
T. Serizawa, K. Wakita, T. Kaneko and M. Akashi, J. Polym. Sci. A Polym. Chem., 40, 4228 (2002); doi:10.1002/pola.10482.
K. Haraguchi and T. Takehisa, Adv. Mater., 14, 1120 (2002); doi:10.1002/1521-4095(20020816)14:16<1120::AID-ADMA1120>3.0.CO;2-9.
C.R. van den Brom, I. Anac, R.F. Roskamp, M. Retsch, U. Jonas, B. Menges and J.A. Preece, Mater. Chem., 20, 4827 (2010); doi:10.1039/b927314j.
Y. Akagawa, Y. Ichikawa, H. Nikai and H. Tsuru, J. Prosthet. Dent., 68, 332 (1992).
T. Bayerlein, P. Proff, G. Richter, S. Dietze, J. Fanghänel and T. Gedrange, Folia Morphol. (Warsz), 65, 72 (2006).
B. Jeong, S.W. Kim and Y.H. Bae, Adv. Drug Deliv. Rev., 54, 37 (2002); doi:10.1016/S0169-409X(01)00242-3.
K. Otake, H. Inomata, M. Konno and S. Saito, Macromolecules, 23, 283 (1990); doi:10.1021/ma00203a049.
X.Z. Zhang, Y.Y. Yang and T.S. Chung, Langmuir, 18, 2538 (2002); doi:10.1021/la011410j.
A.S. Hoffman, Adv. Drug Deliv. Rev., 64(S), 18 (2012); doi:10.1016/j.addr.2012.09.010.