Chunqing Niu scite author profile

Carbodiimide cross-linked silk fibroin (SF)/sodium alginate (SA) composite hydrogels with superior stability and tunable properties are developed by varying preparation parameters. SF/SA blend ratio modulation allows to achieve composite hydrogel gelation times of 18-65 min, and rheological analysis shows that the speed of gel formation, the hydrogel network's density, and the hydrogels' compressive properties are closely related to the blend ratio. The G′ of different hydrogels varies substantially from 28 to 413 Pa, and the hydrogel with higher SF content has a greater stiffness. The composite hydrogels present appropriate porosity of 76.63-85.09% and pore size of 316-603 μm. Hydrogel stability improves significantly after cross-linking, and substantial swelling occurs due to the hydrophilicity of SA. The 7/3 and 6/4 SF/SA hydrogels are more resistant to degradation in PBS, and cytotoxicity testing confirmed their biocompatibility. For release studies in vitro, two model compounds are used as drug models, tetracycline hydrochloride, and bovine serum albumin (BSA). Different ratios of SF/SA have a greater influence on the release of BSA. This study provides a practical preparation method for flexible SF/SA composite hydrogels, which can help design hydrogels with specific physicochemical properties for different applications, especially drug delivery.

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Silk fibroin/sodium alginate composite porous materials with controllable degradation

Wang

Fan

et al. 2020

International Journal of Biological Macromolecules

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Design and performance of a poly(vinyl alcohol)/silk fibroin enzymatically crosslinked semi-interpenetrating hydrogel for a potential hydrophobic drug delivery

Niu

Wang

et al. 2019

RSC Adv.

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In this study, in order to obtain hydrogels with good properties for sustained release of hydrophobic drugs or for tissue engineering, poly(vinyl alcohol) (PVA)/silk fibroin (SF) semi-interpenetrating (semi-IPN) hydrogels with varied ratios of PVA/SF were enzymatically cross-linked using horseradish peroxidase. A vial inversion test determined approximate gelation times of PVA/SF hydrogels ranging from 5 to 10 min.The hydrogels with varied ratios showed differences in pore size and morphology. Mass loss rate of hydrogels increased from 15% to 58% with increasing PVA concentration. Stable hydrogels with PVA/SF at 0.5 : 1 w/w showed the best swelling ratio values in distilled water (7.36). FTIR analysis revealed that silk fibroin in these hydrogels exhibited the coexistence of amorphous and silk I crystalline structures and the SF and PVA molecules interacted with each other well. The mechanical properties of the composite hydrogels were controlled by the SF content. From the cell viability results, it was found that the hydrogels exerted very low cytotoxicity. Paeonol was chosen as the hydrophobic drug model for release studies from the hydrogels. Paeonol can be uniformly loaded into the composite hydrogels using the emulsifying property of PVA and paeonol release from the hydrogels was dependent on the PVA/SF ratio.This study applied a novel type of enzymatically crosslinked semi-IPN hydrogel that may have potential applications in drug delivery. Fig. 6 (a) The morphologies of cells growing in the extracted media of different samples after 3 days culture, using 33342 and PI fluorescent dyes. Scale bars, 50 mm. (b) The cell viability assessed by MTT assay after 1, 3 and 5 days exposure to hydrogel extract media. 41080 | RSC Adv., 2019, 9, 41074-41082 This journal isFig. 7 Cumulative release of paeonol from PVA/SF hydrogels over a period of 48 hours.This journal is

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Photothermal-modulated drug release from a composite hydrogel based on silk fibroin and sodium alginate

Niu

Liu

Wang

et al. 2021

European Polymer Journal

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Chunqing Niu

A Carbodiimide Cross‐Linked Silk Fibroin/Sodium Alginate Composite Hydrogel with Tunable Properties for Sustained Drug Delivery

Silk fibroin/sodium alginate composite porous materials with controllable degradation

Design and performance of a poly(vinyl alcohol)/silk fibroin enzymatically crosslinked semi-interpenetrating hydrogel for a potential hydrophobic drug delivery

Photothermal-modulated drug release from a composite hydrogel based on silk fibroin and sodium alginate

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