Characterization and evaluation of Bletilla striata polysaccharide/konjac glucomannan blend hydrogel for wound healing

自愈水凝胶 肿胀 的 伤口愈合 材料科学 葡甘露聚糖 热稳定性 多糖 体内 微观结构 生物医学工程 化学 化学工程 复合材料 高分子化学 食品科学 外科 有机化学 医学 生物技术 工程类 生物
作者
Jin Shang,Liangliang Duan,Weimin Zhang,Xiangwen Li,Cheng Ma,Bao Xin
出处
期刊:Journal of Applied Biomaterials & Functional Materials [SAGE Publishing]
卷期号:21: 22808000231176202-22808000231176202 被引量:8
标识
DOI:10.1177/22808000231176202
摘要

Bletilla striata polysaccharide (BSP) is effective for wound healing and has important applications in health care. A series of blend hydrogels was designed with BSP and konjac glucomannan (KGM) in this study to overcome the deficient mechanical performance caused by the excessive dissolution of BSP without affecting its physiological activity. The interplay between them, as well as the effects of KGM concentration on the physical properties and microstructures of hydrogels, were also explored. It was proved that the frame of the hydrogel was primarily formed by KGM. BSP was dispersed uniformly and linked to KGM through hydrogen bonding, which effectively improved the physical properties, such as increasing the water-holding capacity, improving the swelling degree, and enhancing the mechanical properties. Blend hydrogel BK2-2 (containing 1.0% BSP and 1.0% KGM, w/v) was found to be the optimal formulation based on the thermal stability and microstructure, which was used for further research. In vitro experiments revealed the L929 cell proliferative effects of the blend hydrogel, and no difference was found with BSP sponge extract after 72 h of exposure. In vivo animal studies indicated that the BK2-2 accelerated wound healing compared with the control group; however, no difference was found with dressings only made of BSP. These results demonstrated that KGM improved the physical properties of BSP-based material without negatively affecting its physiological properties. Also, the BSP/KGM blend hydrogel had good comprehensive properties and is expected to be used as a wound healing material in the future.
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