Synthesis of hydrogels from biomaterials and their potential application in tissue engineering

IF 2.4 3区化学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Carbohydrate Research Pub Date : 2024-07-15 DOI:10.1016/j.carres.2024.109216

Gabriela Martínez-Mejía , Ricardo Cuadras-Arconada , Nadia Adriana Vázquez-Torres , Rubén Caro-Briones , Andrés Castell-Rodríguez , José Manuel del Río , Mónica Corea , Rogelio Jiménez-Juárez

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Abstract

In this study, a series of hydrogels were synthesized from chitosan(s) that was crosslinking with glutaraldehyde at different concentrations. Ascorbic acid in an acidic medium was used to facilitate non-covalent interactions. The chitosan(s) was obtained from shrimp cytoskeleton; while ascorbic acid was extracted from xoconostle juice. The hydrogel reaction was monitored by UV–vis spectroscopy (550 nm) to determine the reaction kinetics and reaction order at 60 °C. The hydrogels structures were characterized by NMR, FT-IR, HR-MS and SEM, while the degree of cross-linking was examined with TGA-DA. The extracellular matrices were obtained as stable hydrogels where reached maximum crosslinking was of 7 %, independent of glutaraldehyde quantity added. The rheological properties showed a behavior of weak gels and a dependence of crosslinking agent concentration on strength at different temperatures. The cytotoxicity assay showed that the gels had no adverse effects on cellular growth for all concentrations of glutaraldehyde.

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利用生物材料合成水凝胶及其在组织工程中的潜在应用

本研究用不同浓度的戊二醛交联壳聚糖，合成了一系列水凝胶。酸性介质中的抗坏血酸可促进非共价相互作用。壳聚糖是从虾的细胞骨架中提取的，而抗坏血酸是从牛肝菌汁中提取的。通过紫外-可见光谱（550 nm）监测水凝胶反应，以确定在 60 °C 下的反应动力学和反应顺序。核磁共振、傅立叶变换红外光谱、HR-MS 和扫描电镜对水凝胶结构进行了表征，TGA-DA 对交联程度进行了检测。获得的细胞外基质是稳定的水凝胶，最大交联度为 7%，与戊二醛的添加量无关。流变特性显示，在不同温度下，交联剂浓度对强度的影响与弱凝胶的行为有关。细胞毒性试验表明，在所有浓度的戊二醛中，凝胶都不会对细胞生长产生不利影响。

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来源期刊

Carbohydrate Research 化学-生化与分子生物学

CiteScore

5.00

自引率

3.20%

发文量

183

审稿时长

3.6 weeks

期刊介绍： Carbohydrate Research publishes reports of original research in the following areas of carbohydrate science: action of enzymes, analytical chemistry, biochemistry (biosynthesis, degradation, structural and functional biochemistry, conformation, molecular recognition, enzyme mechanisms, carbohydrate-processing enzymes, including glycosidases and glycosyltransferases), chemical synthesis, isolation of natural products, physicochemical studies, reactions and their mechanisms, the study of structures and stereochemistry, and technological aspects. Papers on polysaccharides should have a "molecular" component; that is a paper on new or modified polysaccharides should include structural information and characterization in addition to the usual studies of rheological properties and the like. A paper on a new, naturally occurring polysaccharide should include structural information, defining monosaccharide components and linkage sequence. Papers devoted wholly or partly to X-ray crystallographic studies, or to computational aspects (molecular mechanics or molecular orbital calculations, simulations via molecular dynamics), will be considered if they meet certain criteria. For computational papers the requirements are that the methods used be specified in sufficient detail to permit replication of the results, and that the conclusions be shown to have relevance to experimental observations - the authors'' own data or data from the literature. Specific directions for the presentation of X-ray data are given below under Results and "discussion".

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