Chitosan-based nanostructured biomaterials: Synthesis, properties, and biomedical applications

IF 9.9 Q1 MATERIALS SCIENCE, COMPOSITES
Mazhar Ul-Islam , Khulood Fahad Alabbosh , Sehrish Manan , Shaukat Khan , Furqan Ahmad , Muhammad Wajid Ullah
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引用次数: 0

Abstract

Chitosan is obtained from chitin, which is abundantly found in crustaceans and obtained through various methods. The demineralization, deproteinization, discoloration, and deacetylation of chitin produce chitosan consisting of d-glucosamine and N-acetyl d-glucosamine units that are linked through β-(1,4)-glycosidic linkages. Chitosan has gained significant attention in the biomedical field due to its unique properties such as abundance, renewability, non-toxic nature, antimicrobial activity, biodegradability, and polyfunctionality. One of its key properties is its antimicrobial activity, which is why it has been heavily utilized in the biomedical field. To provide a comprehensive overview of chitosan, this review discusses its extraction from chitin and its properties based on its source and extraction methods. It also delves into various chemical modifications and nanocomposite development using natural and synthetic materials. The review emphasizes the multitude of properties that make chitosan an excellent choice for a wide range of biomedical applications. It discusses various mechanisms of antibacterial activity and the factors affecting this activity. Additionally, the review highlights biodegradability, hemocompatibility, antioxidant activity, anti-inflammation, and other properties of chitosan that contribute to its suitability for different biomedical applications, including wound dressing materials, drug delivery carriers, biosensing and diagnostic devices, bone substitutes, and bioimaging. While discussing some limitations of chitosan, the review concludes with an overview of the future perspective for developing multifunctional chitosan-based nanomaterials that could potentially move from laboratory to clinical trials for treating various diseases.

壳聚糖纳米结构生物材料的合成、性能及生物医学应用
壳聚糖是从甲壳素中提取的,甲壳素大量存在于甲壳类动物体内,可通过各种方法获得。甲壳素经过脱矿物质、脱蛋白、变色和脱乙酰基处理后,产生由 d-氨基葡萄糖和 N-乙酰 d-氨基葡萄糖单位组成的壳聚糖,这些单位通过 β-(1,4)-糖苷键连接。壳聚糖具有丰富、可再生、无毒、抗菌活性、可生物降解和多功能性等独特特性,因此在生物医学领域备受关注。其主要特性之一是抗菌活性,这也是它在生物医学领域得到广泛应用的原因。为了全面介绍壳聚糖,本综述讨论了从甲壳素中提取壳聚糖的方法,以及根据壳聚糖的来源和提取方法确定的壳聚糖特性。综述还深入探讨了各种化学改性以及利用天然和合成材料开发纳米复合材料的问题。综述强调了壳聚糖的多种特性,这些特性使其成为广泛生物医学应用的绝佳选择。它讨论了抗菌活性的各种机制以及影响这种活性的因素。此外,该综述还强调了壳聚糖的生物降解性、血液相容性、抗氧化活性、抗炎性和其他特性,这些特性使其适合用于不同的生物医学应用,包括伤口敷料材料、药物输送载体、生物传感和诊断设备、骨替代品和生物成像。在讨论壳聚糖的一些局限性的同时,本综述最后概述了开发基于壳聚糖的多功能纳米材料的未来前景,这些材料有可能从实验室进入临床试验阶段,用于治疗各种疾病。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Advanced Industrial and Engineering Polymer Research
Advanced Industrial and Engineering Polymer Research Materials Science-Polymers and Plastics
CiteScore
26.30
自引率
0.00%
发文量
38
审稿时长
29 days
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