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Abstract
Though chitosan hydrogels have shown potential for numerous tissue regeneration applications, its insolubility above pH 6.0 have greatly limited applicability in encapsulation of live cells and pH sensitive bioactive agents. In this report an approach to overcome this limitation was tested with phosphorylated derivative of chitosan, N-methylene phosphonic chitosan (NMPC). NMPC is also known to possess efficacious gene delivery, biomineralization, and osteoinduction properties. NMPC hydrogels were synthesized by cross-linking NMPC with either glutaraldehyde (NMPC-GLU) or genipin (NMPC-GEN). An increase in pH from 3.0 to 6.8 reduced gelation time with both the agents, with the reduction more pronounced in NMPC-GLU. The results correlated with the reaction mechanisms of both agents with NMPC. Further NMPC-GEN gels demonstrated higher elastic modulus and compressive strength values. Cell culture studies showed higher cell proliferation on NMPC-GEN compared to NMPC-GLU. [Supplementary materials are available for this article. Go to the Publisher's online edition of Soft Materials for the following free supplemental resource(s): Supporting information of Pallab Datta et al.]
Acknowledgments
Authors thank Council of Scientific and Industrial Research India for financial support to carry out the work. Contribution of Mr. Nantu Dogra and Mr. Krishnabrata Panda toward regular laboratory activities is duly acknowledged.