Targeted Bacterial Keratitis Treatment with Polyethylene Glycol-Dithiothreitol- Boric Acid Hydrogel and Gatifloxacin.

Current drug delivery Pub Date : 2024-02-29 DOI:10.2174/0115672018279105240226050253

Xiao Shen, Chunlian Huang, Jian-Hai Bai, Jing Wen

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Abstract

Objective: To prolong the ocular residence time of gatifloxacin and enhance its efficacy against bacterial keratitis, this study developed a velocity-controlled polyethylene glycol-dithiothreitol- boric acid (PDB) hydrogel loaded with gatifloxacin.

Materials and methods: First, the basic properties of the synthesized PDB hydrogel and the gatifloxacin- loaded PDB hydrogel were assessed. Secondly, the in vitro degradation rate of the drugloaded PDB was measured in a simulated body fluid environment with pH 7.4/5.5. The release behavior of the drug-loaded PDB was studied using a dialysis method with PBS solution of pH 7.4/5.5 as the release medium. Finally, a mouse model of bacterial keratitis was established, and tissue morphology was observed using hematoxylin-eosin staining. Additionally, mouse tear fluid was extracted to observe the antibacterial effect of the gatifloxacin-loaded PDB hydrogel.

Results: The results showed that the PDB hydrogel had a particle size of 124.9 nm and a zeta potential of -23.3 mV, with good porosity, thermosensitivity, viscosity distribution, rheological properties, and high cell compatibility. The encapsulation of gatifloxacin did not alter the physical properties of the PDB hydrogel and maintained appropriate swelling and stability, with a high drug release rate in acidic conditions. Furthermore, animal experiments demonstrated that the gatifloxacin- loaded PDB hydrogel exhibited superior therapeutic effects compared to gatifloxacin eye drops and displayed strong antibacterial capabilities against bacterial keratitis.

Conclusion: This study successfully synthesized PDB hydrogel and developed a gatifloxacin drug release system. The hydrogel exhibited good thermosensitivity, pH responsiveness, stability, and excellent biocompatibility, which can enhance drug retention, utilization, and therapeutic effects on the ocular surface.

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用聚乙二醇-二硫苏糖醇-硼酸水凝胶和加替沙星治疗细菌性角膜炎

研究目的为延长加替沙星在眼内的停留时间，提高其对细菌性角膜炎的疗效，本研究开发了一种载入加替沙星的速度可控型聚乙二醇-二硫苏糖醇-硼酸（PDB）水凝胶：首先，评估了合成的 PDB 水凝胶和负载加替沙星的 PDB 水凝胶的基本特性。其次，在 pH 值为 7.4/5.5 的模拟体液环境中测量了载药 PDB 的体外降解率。以 pH 值为 7.4/5.5 的 PBS 溶液为释放介质，采用透析法研究了载药 PDB 的释放行为。最后，建立了细菌性角膜炎小鼠模型，并使用苏木精-伊红染色法观察了组织形态。此外，还提取了小鼠泪液，以观察加替沙星负载的 PDB 水凝胶的抗菌效果：结果表明，PDB水凝胶的粒径为124.9 nm，Zeta电位为-23.3 mV，具有良好的孔隙率、热敏性、粘度分布、流变特性和较高的细胞相容性。加替沙星的包封没有改变 PDB 水凝胶的物理性质，并保持了适当的溶胀性和稳定性，在酸性条件下药物释放率较高。此外，动物实验表明，与加替沙星滴眼液相比，负载加替沙星的 PDB 水凝胶具有更优越的治疗效果，对细菌性角膜炎有很强的抗菌能力：本研究成功合成了 PDB 水凝胶，并开发了一种加替沙星药物释放系统。该水凝胶具有良好的热敏性、pH 值响应性、稳定性和优异的生物相容性，可提高药物在眼表的保留、利用和治疗效果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Current drug delivery

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