用于眼部治疗地塞米松缓释的自愈热敏水凝胶

IF 4.7 Q1 POLYMER SCIENCE
Ada Annala, Blessing C. Ilochonwu, Danny Wilbie, Amir Sadeghi, Wim E. Hennink and Tina Vermonden*, 
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引用次数: 5

摘要

本研究的目的是开发一种可注射的水凝胶递送系统,用于地塞米松的持续眼部递送。为此,设计了一种由热敏ABA三嵌段共聚物组成的自修复水凝胶。该药物通过甲基丙烯酸地塞米松与N-异丙基丙烯酰胺(NIPAM)和N-丙烯酰氧基琥珀酰亚胺(NAS)的共聚,通过可逆加成-断裂链转移(RAFT)聚合与聚合物共价连接,使用链转移剂(CTA)在两端官能化的聚乙二醇(PEG)。水凝胶的形成是通过将形成的热敏聚合物(浊点为23°C)的水溶液与胱胺在37°C下混合来实现的,以由于聚合物的N-羟基Succimide(NHS)官能团与胱胺的伯胺的反应而导致共价交联。流变学分析显示,37°C下的热凝胶化和共价交联,以及形成的网络的自修复特性,这归因于胱胺交联中存在二硫键,使系统可注射。地塞米松从水凝胶中的释放是通过酯水解发生的,在37°C下,在pH 7.4的水性介质中,经过430天,遵循一级动力学。基于模拟,施用100mg水凝胶将足以在玻璃体中维持地塞米松的治疗水平至少500天。重要的是,通过LC–MS分析,地塞米松以天然形式从水凝胶中释放。细胞相容性研究表明,在临床相关浓度下,成人视网膜色素上皮(ARPE-19)细胞对聚合物和交联剂都有良好的耐受性。此外,水凝胶对ARPE-19细胞没有显示出任何毒性。水凝胶的可注射性,加上地塞米松的长期释放以及与视网膜细胞系的良好细胞相容性,使该递送系统成为治疗眼部炎症疾病的有吸引力的候选者。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Self-Healing Thermosensitive Hydrogel for Sustained Release of Dexamethasone for Ocular Therapy

Self-Healing Thermosensitive Hydrogel for Sustained Release of Dexamethasone for Ocular Therapy

The aim of this study was to develop an injectable hydrogel delivery system for sustained ocular delivery of dexamethasone. To this end, a self-healing hydrogel consisting of a thermosensitive ABA triblock copolymer was designed. The drug was covalently linked to the polymer by copolymerization of methacrylated dexamethasone with N-isopropylacrylamide (NIPAM) and N-acryloxysuccinimide (NAS) through reversible addition–fragmentation chain transfer (RAFT) polymerization, using poly(ethylene glycol) (PEG) functionalized at both ends with a chain transfer agent (CTA). Hydrogel formation was achieved by mixing aqueous solutions of the formed thermosensitive polymer (with a cloud point of 23 °C) with cystamine at 37 °C, to result in covalent cross-linking due to the reaction of the N-hydroxysuccimide (NHS) functionality of the polymer and the primary amines of cystamine. Rheological analysis showed both thermogelation and covalent cross-linking at 37 °C, as well as the self-healing properties of the formed network, which was attributed to the presence of disulfide bonds in the cystamine cross-links, making the system injectable. The release of dexamethasone from the hydrogel occurred through ester hydrolysis following first-order kinetics in an aqueous medium at pH 7.4 over 430 days at 37 °C. Based on simulations, administration of 100 mg of hydrogel would be sufficient for maintaining therapeutic levels of dexamethasone in the vitreous for at least 500 days. Importantly, dexamethasone was released from the hydrogel in its native form as determined by LC–MS analysis. Cytocompatibility studies showed that at clinically relevant concentrations, both the polymer and the cross-linker were well tolerated by adult retinal pigment epithelium (ARPE-19) cells. Moreover, the hydrogel did not show any toxicity to ARPE-19 cells. The injectability of the hydrogel, together with the long-lasting release of dexamethasone and good cytocompatibility with a retinal cell line, makes this delivery system an attractive candidate for treatment of ocular inflammatory diseases.

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