New Biocompatible Nanoparticles Based on Fractionized Gelatin as Drug Delivery Systems for Nucleic Acids and Peptides

C. Coester
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引用次数: 1

Abstract

In 1978 Marty et al. described for the first time the preparation of gelatin nanoparticles using desalting or desolvating agents. The desolvation process using acetone or other non-solvents works only with very low concentrations of gelatin (0.1%) [1]. By increasing the gelatin concentration in the solution the formation of aggregations during desolvation and cosslinking also dramatically increases. In 1985 the molecular weight of gelatin was described to be between 60000-90000 Da [2]. With improved analytical equipment, the specification of the molecular weight of one of the largest gelatin producers worldwide (DGF Stoess AG, Eberbach, Germany) is today from below 20000 to over 400000 Da. This shows the heterogeneity of gelatin and makes it more understanding why there are many difficulties in the preparation of nanoparticles from this substance.
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基于明胶分级的新型生物相容性纳米颗粒作为核酸和多肽的药物递送系统
1978年,Marty等人首次描述了使用脱盐或脱溶剂制备明胶纳米颗粒。使用丙酮或其他非溶剂的脱溶过程只适用于极低浓度的明胶(0.1%)[1]。通过增加溶液中明胶的浓度,在脱溶和交联过程中聚集的形成也显著增加。1985年,明胶的分子量被描述为60000-90000 Da[2]。随着分析设备的改进,全球最大的明胶生产商之一(DGF Stoess AG, Eberbach, Germany)的分子量规格从20000 Da以下到400000 Da以上。这表明了明胶的非均质性,并使人们更加理解为什么从这种物质制备纳米粒子有很多困难。
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