Levofloxacin-loaded silicone contact lenses materials for ocular drug delivery.

IF 2.3 4区医学 Q3 ENGINEERING, BIOMEDICAL Journal of Biomaterials Applications Pub Date : 2024-12-24 DOI:10.1177/08853282241312089

Xuefang Guo, Ying Sun, Jing Qiao, Ben Fan, Xueqin Zhang

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Abstract

Silicone contact lenses (SCL), as an emerging ocular drug delivery system, achieve controlled drug release. However, the existing drug loading methods have limitations such as low drug uptake, complicated operation process, poor welling rate and transmittance of the lens after drug loading. In this study, an effective microemulsion soaking method was proposed to increase the drug-loading capacity of silicone contact lenses. Levofloxacin (LVF) was encapsulated into the microemulsion by direct agitation, then the microemulsion was loaded into silicone contact lenses using the immersion method. The adsorption capacity of levofloxacin and its effect on drug release kinetics were explored. The results showed that the particle size of the microemulsion was approximately 160 nm. The levofloxacin microemulsion soaking method (LVF-ME-SCL) significantly enhanced the drug loading of levofloxacin in the silicone contact lenses, achieving a maximum drug loading of 216.32 ± 1.15 μg/lens (p > 0.05). The total release rate of levofloxacin was 95.96% when the sustained release time was 10 h, and the drug leakage observed after 10 h was negligible. The survival rate of E. coli and S. aureus in LVF-ME-SCL-1 (LVF concentration was 4.8 mg/mL) group was 0 and 19.33 ± 0.02% (p < 0.0001), with a significant difference, indicating that the drug-loaded silicone contact lenses exhibited effective bactericidal properties against E. coli and S. aureus. Following the addition of maximum levofloxacin, the surface contact angle of silicone contact lenses decreased significantly to 32.88 ± 1.19° (p > 0.05), while the swelling, mechanical properties, and oxygen permeability remained relatively unchanged. There was no significant decrease in the transmittance of the contact lenses after the addition of levofloxacin, which remained above 95%. In conclusion, these results show that the microemulsion impregnation method effectively improves the drug loading and sustained release time of levofloxacin, and maintains lens performance stability before and after drug loading, so it is expected to be used in ophthalmic treatment.

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左氧氟沙星硅酮隐形眼镜眼部给药材料。

硅胶隐形眼镜（SCL）作为一种新兴的眼部给药系统，可以实现药物的控释。然而，现有的载药方法存在吸收率低、操作过程复杂、载药后晶状体透光率差等局限性。本研究提出了一种有效的微乳液浸泡方法来提高硅胶隐形眼镜的载药量。将左氧氟沙星（LVF）直接搅拌包封到微乳液中，然后用浸渍法将微乳液装入硅胶隐形眼镜中。考察了左氧氟沙星的吸附量及其对药物释放动力学的影响。结果表明，微乳液的粒径约为160 nm。左氧氟沙星微乳浸泡法（LVF-ME-SCL）显著提高了硅胶隐形眼镜中左氧氟沙星的载药量，最大载药量为216.32±1.15 μg/镜片（p > 0.05）。当缓释时间为10 h时，左氧氟沙星的总释放率为95.96%，10 h后所观察到的漏药可以忽略不计。LVF- me - scl -1 （LVF浓度为4.8 mg/mL）组大肠杆菌和金黄色葡萄球菌的存活率分别为0和19.33±0.02% (p < 0.0001)，差异有统计学意义，说明载药硅胶隐形眼镜对大肠杆菌和金黄色葡萄球菌具有有效的杀菌作用。添加最大左氧氟沙星后，硅胶隐形眼镜的表面接触角明显降低至32.88±1.19°（p < 0.05），而其溶胀性、力学性能和透氧性基本保持不变。加入左氧氟沙星后，隐形眼镜的透光率没有明显下降，保持在95%以上。综上所述，微乳浸渍法有效提高了左氧氟沙星的载药时间和缓释时间，并保持了载药前后晶状体性能的稳定性，有望应用于眼科治疗。

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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来源期刊

Journal of Biomaterials Applications 工程技术-材料科学：生物材料

CiteScore

5.10

自引率

3.40%

发文量

144

审稿时长

1.5 months

期刊介绍： The Journal of Biomaterials Applications is a fully peer reviewed international journal that publishes original research and review articles that emphasize the development, manufacture and clinical applications of biomaterials. Peer-reviewed articles by biomedical specialists from around the world cover: New developments in biomaterials, R&D, properties and performance, evaluation and applications Applications in biomedical materials and devices - from sutures and wound dressings to biosensors and cardiovascular devices Current findings in biological compatibility/incompatibility of biomaterials The Journal of Biomaterials Applications publishes original articles that emphasize the development, manufacture and clinical applications of biomaterials. Biomaterials continue to be one of the most rapidly growing areas of research in plastics today and certainly one of the biggest technical challenges, since biomaterial performance is dependent on polymer compatibility with the aggressive biological environment. The Journal cuts across disciplines and focuses on medical research and topics that present the broadest view of practical applications of biomaterials in actual clinical use. The Journal of Biomaterial Applications is devoted to new and emerging biomaterials technologies, particularly focusing on the many applications which are under development at industrial biomedical and polymer research facilities, as well as the ongoing activities in academic, medical and applied clinical uses of devices.