甘蔗生物质作为药物输送系统的潜在载体

V. Halysh, O. Sevastyanova, Zhao Yadong
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引用次数: 0

摘要

非甾体抗炎药是众所周知的减轻疼痛的药物,也是一组会导致胃粘膜损伤的药物。通过将药物固定在各种载体上,例如,固定在植物生物量的成分上,以创建药物传递系统,可以减少对消化系统的负面影响。植物生物质是一种由木质素、纤维素和半纤维素组成的木质纤维素复合物,可以潜在地视为药物的载体。蔗渣和秸秆等甘蔗残留物是甘蔗工业的生物质副产品。其有效利用的前景之一可能包括化学处理,目的是获得有效的生物吸附剂或不同组成和结构的所谓载体。本研究的目的是研究通过脱木质素和水解从甘蔗生物质(甘蔗渣和秸秆)中提取的纤维素、木质素和木质纤维素的结构、形态和吸附特性,作为药物递送系统的潜在组分。与甘蔗渣样品相比,甘蔗秸秆样品显示出更高的密度。甘蔗渣和秸秆的木质素样品与其他来自纤维素和木质纤维素性质的甘蔗生物质的材料相比,具有更大的体积和真密度。观察到木质素的吸附孔体积增加,表明木质素具有较好的吸附能力。与初始材料相比,来自秸秆的纤维素和木质纤维素样品具有更大的孔隙结构。双氯芬酸钠的吸附效率值与相应材料的孔体积值相关。甘蔗秸秆木质素具有较好的吸附性能,其孔隙率较大。SEM图像表明,初始材料和处理后的材料具有复杂的形貌。FTIR光谱显示蔗渣和秸秆的木质纤维素、纤维素和木质素在结构上有明显的差异。研究了甘蔗渣和秸秆生物聚合物作为双氯芬酸钠有机载体的应用前景。为此,用双氯芬酸钠酒精溶液浸渍植物聚合物,并对其解吸过程进行了研究。甘蔗秸秆木质素释药时间较长,说明获得了缓释效果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sugarcane biomass as а potential carrier for drug delivery system
Non-steroidal anti-inflammatory drugs are well-known medications for reducing pain and a group of drugs that can cause mucosal damage of the stomach. The negative effects on the digestive system can be reduced by immobilization of drugs on various carriers, for instance, on the components of plant biomass, for the creation of drug delivery system. Plant biomass is a lignocellulosic complex consisting of lignin, cellulose and hemicellulose that can potentially be regarded as a carrier of pharmaceuticals. Sugarcane residues such as bagasse and straw are biomass by-products of the sugarcane industry. One of the prospective ways for their efficient utilization can include chemical processing with the aim of obtaining effective biosorbents or so-called carriers of different composition and structure. The aim of the work was to study the structural, morphological, and sorption properties of cellulose, lignin, and lignocellulose, derived from sugarcane biomass (bagasse and straw) by means of delignification and hydrolysis, as potential components for drug delivery system. Sugarcane straw samples show higher densities in comparison with bagasse samples. Both lignin samples from bagasse and straw have greater bulk and true density if compared to other materials from sugarcane biomass of cellulosic and lignocellulosic nature. The increase in adsorption pore volume in lignins is observed, being indicative of better sorption ability. Both samples of cellulose and lignocellulose from straw have greater pore structure if compared to the initial material. The values of sodium diclofenac sorption efficiency correlate with the values of pore volume for corresponding materials. Lignin from sugarcane straw, which shows greater porosity, has greater sorption properties. SEM images show that the initial materials and treated materials have complex morphology. FTIR spectra show a clear difference in the structure of lignocellulose, cellulose, and lignin from sugarcane bagasse and straw. The potential application of biopolymers from bagasse and straw as organic carriers of sodium diclofenac was studied. With this purpose, plant polymers were impregnated with an alcoholic solution of sodium diclofenac and the desorption process was investigated. The lignin sample from sugarcane straw has a longer period of drug release, which indicates the obtained effect of prolongation.
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