Reinforcement of hydrogel scaffold using oxidized-guar gum incorporated with curcumin-loaded zein nanoparticles to improve biological performance

Newly, the use of biocompatible injectable hydrogel with appropriate features for application in the tissue engineering area as a perfect wound dressing has been more attracted. For this purpose, the curcumin loaded Zein nanoparticles/aldehyde-modified guar gum/silk fibroin (Cur-NPs/OGG/SF) hydrogel...

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Veröffentlicht in:	International journal of biological macromolecules 2021-01, Vol.167, p.59-65
Hauptverfasser:	Nezhad-Mokhtari, Parinaz, Ghorbani, Marjan, Abdyazdani, Nima
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Anti-Infective Agents - chemistry Anti-Infective Agents - pharmacology Bombyx Cell Line Cell Survival - drug effects Chemical Phenomena Curcumin - administration & dosage Fibroins - chemistry Galactans - chemistry Guar gum Hydrogels - chemistry Mannans - chemistry Mice Microbial Sensitivity Tests Nanoparticles - chemistry Nanoparticles - ultrastructure Oxidation-Reduction Plant Gums - chemistry Rheology Scaffold Spectrum Analysis Thermogravimetry Tissue Scaffolds - chemistry Zein - chemistry Zein nanoparticle
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container_title	International journal of biological macromolecules
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creator	Nezhad-Mokhtari, Parinaz Ghorbani, Marjan Abdyazdani, Nima
description	Newly, the use of biocompatible injectable hydrogel with appropriate features for application in the tissue engineering area as a perfect wound dressing has been more attracted. For this purpose, the curcumin loaded Zein nanoparticles/aldehyde-modified guar gum/silk fibroin (Cur-NPs/OGG/SF) hydrogel networks were successfully developed to increase the Cur bioavailability during the wound treatment procedure. Fabricated hydrogels were assessed for their morphological, thermal stability, degradation, and mechanical features. By varying the OGG/SF weight ratios, the physicochemical features of hydrogels without or with Cur-loaded Zein NPs were studied. The results showed that with enhancing the OGG content, the degradation behavior of hydrogels were improved. Besides, Cur-NPs/OGG/SF hydrogels increased the cell proliferation without any cytotoxic effect on mouse embryonic fibroblast (NIH-3T3) cells. The Cur-NPs/OGG/SF hydrogel exposed inhibition activity against Bacillus (15.26 ± 1.09 mm) and E. coli (11.54± 1.36 mm) bacteria. These achieved results recommended that the novel developed hydrogel could be suitable for wound healing application.
doi_str_mv	10.1016/j.ijbiomac.2020.11.103
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For this purpose, the curcumin loaded Zein nanoparticles/aldehyde-modified guar gum/silk fibroin (Cur-NPs/OGG/SF) hydrogel networks were successfully developed to increase the Cur bioavailability during the wound treatment procedure. Fabricated hydrogels were assessed for their morphological, thermal stability, degradation, and mechanical features. By varying the OGG/SF weight ratios, the physicochemical features of hydrogels without or with Cur-loaded Zein NPs were studied. The results showed that with enhancing the OGG content, the degradation behavior of hydrogels were improved. Besides, Cur-NPs/OGG/SF hydrogels increased the cell proliferation without any cytotoxic effect on mouse embryonic fibroblast (NIH-3T3) cells. The Cur-NPs/OGG/SF hydrogel exposed inhibition activity against Bacillus (15.26 ± 1.09 mm) and E. coli (11.54± 1.36 mm) bacteria. 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For this purpose, the curcumin loaded Zein nanoparticles/aldehyde-modified guar gum/silk fibroin (Cur-NPs/OGG/SF) hydrogel networks were successfully developed to increase the Cur bioavailability during the wound treatment procedure. Fabricated hydrogels were assessed for their morphological, thermal stability, degradation, and mechanical features. By varying the OGG/SF weight ratios, the physicochemical features of hydrogels without or with Cur-loaded Zein NPs were studied. The results showed that with enhancing the OGG content, the degradation behavior of hydrogels were improved. Besides, Cur-NPs/OGG/SF hydrogels increased the cell proliferation without any cytotoxic effect on mouse embryonic fibroblast (NIH-3T3) cells. The Cur-NPs/OGG/SF hydrogel exposed inhibition activity against Bacillus (15.26 ± 1.09 mm) and E. coli (11.54± 1.36 mm) bacteria. 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For this purpose, the curcumin loaded Zein nanoparticles/aldehyde-modified guar gum/silk fibroin (Cur-NPs/OGG/SF) hydrogel networks were successfully developed to increase the Cur bioavailability during the wound treatment procedure. Fabricated hydrogels were assessed for their morphological, thermal stability, degradation, and mechanical features. By varying the OGG/SF weight ratios, the physicochemical features of hydrogels without or with Cur-loaded Zein NPs were studied. The results showed that with enhancing the OGG content, the degradation behavior of hydrogels were improved. Besides, Cur-NPs/OGG/SF hydrogels increased the cell proliferation without any cytotoxic effect on mouse embryonic fibroblast (NIH-3T3) cells. The Cur-NPs/OGG/SF hydrogel exposed inhibition activity against Bacillus (15.26 ± 1.09 mm) and E. coli (11.54± 1.36 mm) bacteria. 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subjects	Animals Anti-Infective Agents - chemistry Anti-Infective Agents - pharmacology Bombyx Cell Line Cell Survival - drug effects Chemical Phenomena Curcumin - administration & dosage Fibroins - chemistry Galactans - chemistry Guar gum Hydrogels - chemistry Mannans - chemistry Mice Microbial Sensitivity Tests Nanoparticles - chemistry Nanoparticles - ultrastructure Oxidation-Reduction Plant Gums - chemistry Rheology Scaffold Spectrum Analysis Thermogravimetry Tissue Scaffolds - chemistry Zein - chemistry Zein nanoparticle
title	Reinforcement of hydrogel scaffold using oxidized-guar gum incorporated with curcumin-loaded zein nanoparticles to improve biological performance
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