Your search keyword '"Hou, Ruxia"' showing total 2 results

1. Glucose-sensitive delivery of tannic acid by a photo-crosslinked chitosan hydrogel film for antibacterial and anti-inflammatory therapy.

Author

Liu, Junyu, Liu, Haifeng, Jia, Yongliang, Tan, Ziwei, Hou, Ruxia, Lu, Jie, Luo, Dongmei, Fu, Xinyu, Wang, Lu, and Wang, Xiangyu

Subjects

HYDROGELS, CHITOSAN, GLUCOSE oxidase, TANNINS, PORPHYROMONAS gingivalis, POROSITY

Abstract

A glucose-sensitive antibacterial and anti-inflammatory hydrogel film with controlled release of tannic acid (TA) was synthesized using chitosan (CS). Specifically, the photo-crosslinked CS hydrogel was first obtained and then immersed in TA solution to generate composite hydrogel film with enhanced mechanical properties. Subsequently, N-hydroxysuccinimide/1-ethyl-3-(3-dimethylaminopropyl) carbodiimide based coupling chemistry was used to covalently crosslink glucose oxidase (GOx) to CS to obtain glucose sensitivity. The physicochemical properties, including chemical composition, enzyme-related characteristics, glucose responsiveness, and mechanical strength, were thoroughly investigated, followed by the cytotoxicity, antibacterial and anti-inflammatory tests. The results showed that the GOx immobilized on the film surface by covalent bonding gave better stability than those that were physically adsorbed. In addition, it could quickly and correspondingly modify its inner pore structure in response to the glucose stimulus and then control the loaded TA release. Meanwhile, the TA addition could enhance the film's mechanical properties. The composite hydrogel film demonstrated adequate biocompatibility and can inhibit NO, IL-6, and TNF-α production in stimulated macrophages, as well as Porphyromonas gingivalis growth, demonstrating effective antibacterial and anti-inflammatory activity. [ABSTRACT FROM AUTHOR]

Published

2022

2. PEI-modified diatomite/chitosan composites as bone tissue engineering scaffold for sustained release of BMP-2.

Author

Wang, Xiangyu, Li, Yufang, Ren, Wenjuan, Hou, Ruxia, Liu, Haifeng, Li, Ran, Du, Shouji, Wang, Lu, and Liu, Junyu

Subjects

POLYETHYLENEIMINE, DIATOMACEOUS earth, TISSUE engineering, MESENCHYMAL stem cell differentiation, TISSUE scaffolds, CHITOSAN, SURFACE potential, BONE regeneration

Abstract

The bone healing defects resulting from bone disease remain a significant clinical challenge. The bone tissue engineering scaffolds combined with osteoinductive compounds represent an effective approach to overcome this challenge. In this study, a novel chitosan-based scaffold was prepared by incorporating modified natural diatomite (DE) as filler and adsorption element. Specifically, modified-diatomite (MDE) was synthesized by grafting polyethyleneimine (PEI) on the surface of diatomite via hydroxyl groups. The physicochemical characteristics of MDE, including chemical composition, zeta potential, and adsorption behavior, were investigated successively. Further, the mechanical strength, drug release, cytotoxicity and osteogenic activity analyses were carried out for the scaffold material. The FTIR and zeta potential analyses exhibited that the amino groups (–NH2) were grafted on MDE, and the surface potential of diatomite altered from −24 mV to 55 mV. Subsequently, the protein adsorption capacity and cytocompatibility of MDE were observed to be improved as compared to DE. The compressive strength was observed to be enhanced due to the addition of MDE. Besides, the composite scaffold loaded with rhBMP-2 demonstrated a more positive impact on proliferation and osteogenic differentiation of the bone mesenchymal stem cells, thus, indicating an optimal bone regeneration capacity. The findings obtained in this study reveal that the MDE-rhBMP-2/CS composite scaffold can be potentially used to promote the bone tissue regeneration. [ABSTRACT FROM AUTHOR]

Published

2021