Impact of CeO2-Doped Bioactive Glass on the Properties of CMC/PEG Hydrogels Intended for Wound Treatment

自愈水凝胶 生物活性玻璃 聚乙二醇 材料科学 聚合物 化学工程 无定形固体 基质(化学分析) 降级(电信) 活力测定 生物医学工程 组织工程 聚乙烯 化学 生物降解 伤口愈合 吸水率 多糖 PEG比率
作者
Sofia Pacheco,Inês Alexandra Marques,Ana Salomé Pires,Maria Filomena Botelho,Sílvia Soreto Teixeira,Manuel Graça,Sílvia Gavinho
出处
期刊:Gels [Multidisciplinary Digital Publishing Institute]
卷期号:11 (12): 1010-1010
标识
DOI:10.3390/gels11121010
摘要

Diabetes mellitus is a serious public health problem, mainly due to the difficulty in healing chronic wounds, which present an inflammatory response for long periods of time and are more vulnerable to infections. Hydrogels are a promising therapeutic solution due to their biocompatibility, biodegradability, and ability to allow controlled release of therapeutic agents. The addition of bioactive glasses doped with therapeutic ions to hydrogels can also provide specific biological responses to the system and thus improve tissue regeneration. In this study, a hydrogel based on carboxymethylcellulose and polyethylene glycol with different degrees of crosslinking and enriched with 10% by weight of CeO2-doped Bioglass 45S5 was developed. Structural, morphological, mechanical, and biological characterizations were performed on bioactive glass, hydrogels, and hydrogels enriched with bioactive glass. Structural analyses confirmed the preservation of the typical amorphous structure of Bioglass 45S5, even after the incorporation of 5% molar CeO2, as well as the effectiveness of the polymer matrix crosslinking process. Structural analyses demonstrated the preservation of the typical amorphous structure of Bioglass 45S5, even after the incorporation of 5 mol% CeO2, as well as the effectiveness of the polymer matrix cross-linking process. The hydrogels exhibited distinct behaviours in terms of water absorption and degradation, showing that the sample with the lowest concentration of crosslinkers and bioactive glass allowed for a higher expansion rate and a higher degradation rate. The hydrogel with 10 wt% BG did not compromise cell viability and showed structural integrity after being subjected to cyclic flexible deformations, indicating its safety and suitability for use in tissue engineering.
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