Synthesis and evaluation on pH- and temperature-responsive chitosan-p(MAA-co-NIPAM) hydrogels

[Display omitted] •SPAN 80 stabilized chitosan-P(MAA-co-NIPAM) hydrogel particle and form uniform particles.•The chitosan-P(MAA-co-NIPAM) hydrogel aggregated at longer reaction time.•Prolong reaction time on the chitosan-P(MAA-co-NIPAM) hydrogel leads to chain growing.•Chain growing affect pH and te...

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Bibliographic Details
Published in:International journal of biological macromolecules 2018-03, Vol.108, p.367-375
Main Authors: Rasib, S.Z.M., Ahmad, Z., Khan, A., Akil, H.M., Othman, M.B.H., Hamid, Z.A.A., Ullah, F.
Format: Article
Language:English
Subjects:
Chitosan
pH-responsive
Temperature-responsive
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Summary:[Display omitted] •SPAN 80 stabilized chitosan-P(MAA-co-NIPAM) hydrogel particle and form uniform particles.•The chitosan-P(MAA-co-NIPAM) hydrogel aggregated at longer reaction time.•Prolong reaction time on the chitosan-P(MAA-co-NIPAM) hydrogel leads to chain growing.•Chain growing affect pH and temperature sensitivity of chitosan-P(MAA-co-NIPAM) hydrogel. In this study, chitosan-poly(methacrylic acid-co-N-isopropylacrylamide) [chitosan-p(MAA-co-NIPAM)] hydrogels were synthesized by emulsion polymerization. In order to be used as a carrier for drug delivery systems, the hydrogels had to be biocompatible, biodegradable and multi-responsive. The polymerization was performed by copolymerize MAA and NIPAM with chitosan polymer to produce a chitosan-based hydrogel. Due to instability during synthesis and complexity of components to produce the hydrogel, further study at different times of reaction is important to observe the synthesis process, the effect of end product on swelling behaviour and the most important is to find the best way to control the hydrogel synthesis in order to have an optimal swelling behaviour for drug release application. Studied by using Fourier transform infra-red (FTIR) spectroscopy found that, the synthesized was successfully produced stable chitosan-based hydrogel with PNIPAM continuously covered the outer surface of hydrogel which influenced much on the stability during synthesis. The chitosan and PMAA increased the zeta potential of the hydrogel and the chitosan capable to control shrinkage above human body temperature. The chitosan-p(MAA-co-NIPAM) hydrogels also responses to pH and temperature thus improved the ability to performance as a drug carrier.
ISSN:0141-8130
1879-0003
DOI:10.1016/j.ijbiomac.2017.12.021