壳聚糖
蒙脱石
埃洛石
结冷胶
生物高聚物
纳米复合材料
生物相容性材料
粘土矿物
材料科学
环境友好型
甲壳素
生物相容性
透明质酸
药物输送
多糖
化学
纳米技术
聚合物
复合材料
生物医学工程
有机化学
食品科学
医学
矿物学
生态学
解剖
生物
作者
Danina Krajišnik,Snežana Uskoković‐Marković,Aleksandra Daković
标识
DOI:10.3390/ijms251910377
摘要
Polymers of natural origin, such as representatives of various polysaccharides (e.g., cellulose, dextran, hyaluronic acid, gellan gum, etc.), and their derivatives, have a long tradition in biomedical applications. Among them, the use of chitosan as a safe, biocompatible, and environmentally friendly heteropolysaccharide has been particularly intensively researched over the last two decades. The potential of using chitosan for medical purposes is reflected in its unique cationic nature, viscosity-increasing and gel-forming ability, non-toxicity in living cells, antimicrobial activity, mucoadhesiveness, biodegradability, as well as the possibility of chemical modification. The intuitive use of clay minerals in the treatment of superficial wounds has been known in traditional medicine for thousands of years. To improve efficacy and overcome the ubiquitous bacterial resistance, the beneficial properties of chitosan have been utilized for the preparation of chitosan–clay mineral bionanocomposites. The focus of this review is on composites containing chitosan with montmorillonite and halloysite as representatives of clay minerals. This review highlights the antibacterial efficacy of chitosan–clay mineral bionanocomposites in drug delivery and in the treatment of topical skin infections and wound healing. Finally, an overview of the preparation, characterization, and possible future perspectives related to the use of these advancing composites for biomedical applications is presented.
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