Injectable methylcellulose hydrogel containing silver oxide nanoparticles for burn wound healing

[Display omitted] •Thermo-sensitive MC hydrogel containing AgO NPs was prepared via one-step synthesis.•Gelation of the MC was accelerated by adding the precursor salt for AgO NPs.•MC hydrogel has a great potential as an injectable hydrogel for burn wound dressing. A thermo-sensitive methylcellulose...

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Bibliographic Details
Published in:Carbohydrate polymers 2018-02, Vol.181, p.579-586
Main Authors: Kim, Min Hee, Park, Hanna, Nam, Hyung Chan, Park, Se Ra, Jung, Ju-Young, Park, Won Ho
Format: Article
Language:English
Subjects:
In situ formation
Methylcellulose
Silver oxide nanoparticles
Thermo-sensitive hydrogel
Wound healing
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Summary:[Display omitted] •Thermo-sensitive MC hydrogel containing AgO NPs was prepared via one-step synthesis.•Gelation of the MC was accelerated by adding the precursor salt for AgO NPs.•MC hydrogel has a great potential as an injectable hydrogel for burn wound dressing. A thermo-sensitive methylcellulose (MC) hydrogel containing silver oxide nanoparticles (NPs) was prepared via one-pot synthesis in which a silver acetate precursor salt (CH3COOAg) induces a salt-out effect in the MC solution. The silver oxide NPs were synthesized in situ from Ag+ ions during the MC hydrogelation, and the residual CH3COO− ions decreased the gelation temperature of the MC solution through the salt-out effect. The gelation behavior of the MC solution varied according to the CH3COOAg content and was monitored. Also, the formation and structure of the silver oxide NPs in the MC hydrogel was confirmed. From the results, silver oxide NPs was successfully incorporated in MC hydrogels, simultaneously, acetate ion which was counter ion of Ag was affected gelation behavior of Ag. Finally, the antimicrobial activity and wound healing effect was examined using the shaking flask method and burn wound test, respectively. The MC hydrogel with silver oxide NPs showed excellent antimicrobial activity and burn wound healing. Therefore, this thermo-responsive MC hydrogel has great potential as an injectable hydrogel for wound regeneration.
ISSN:0144-8617
1879-1344
DOI:10.1016/j.carbpol.2017.11.109