氧化石墨烯隐形眼镜控制比马前列素释放:体外和体内研究

Nanomaterials eJournal Pub Date : 2021-09-02 DOI:10.2139/ssrn.3828266

Furqan A. Maulvi, Parth D. Soni, P. Patel, Ankita R. Desai, Ditixa T. Desai, Manish Shukla, Shailesh A Shah, D. Shah, M. Willcox

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引用次数: 10

摘要

使用隐形眼镜进行眼部药物输送可以替代眼药水治疗。然而，疏水药物(如用于治疗青光眼的比马前列素)的问题，如使用简单的浸泡方法将药物吸收到预塑形隐形眼镜中，以及改变镜片的肿胀和透光性，限制了药物递送的应用。本研究使用氧化石墨烯(GO)来控制比马前列素从隐形眼镜中的释放，同时改善药物摄取、晶状体肿胀和透光性。在晶状体聚合的同时加入氧化石墨烯，将氧化石墨烯装入硅胶水凝胶隐形眼镜中。这些镜片浸泡在bimatoprost中。另一种方法是在晶状体聚合过程中加入比马托前列素来生产含氧化石墨烯或不含氧化石墨烯的隐形眼镜。由于氧化石墨烯的水结合能力和分子分散在氧化石墨烯表面防止药物局部沉淀的比马前列素的透光性，氧化石墨烯改善了隐形眼镜的肿胀。在氧化石墨烯的存在下，bimatoprost的摄取没有改善。然而，其体外释放谱有所改善。与不加氧化石墨烯的隐形眼镜(DL-BMT)相比，在镜片聚合的同时加入比马托前列素和氧化石墨烯(DL-GO-BMT)可显著减少提取和灭菌过程中的药物损失。随着氧化石墨烯添加量的增加，DL-GO-BMT透镜中比马前列素的爆发和累积释放明显减少。眼部刺激和组织病理学报告证明了氧化石墨烯隐形眼镜的安全性。体内药代动力学研究表明，DL-GO-0.2 μg-BMT-100隐形眼镜在兔泪液中的平均停留时间(MRT)和曲线下面积(AUC)较滴眼液有显著改善。本研究表明，在隐形眼镜中加入氧化石墨烯可以控制比马前列素的释放，改善晶状体肿胀和透光率。然而，在治疗水平内调节药物释放以控制青光眼还需要进一步优化。

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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Controlled Bimatoprost Release from Graphene Oxide Laden Contact Lenses: In vitro and in vivo Studies

Ocular drug delivery using contact lenses may be able to substitute for eye drop therapy. However, issues with hydrophobic drugs (like bimatoprost that is used to treat glaucoma) such as low drug uptake using a simple soaking method into preformed contact lenses and alteration in the swelling and transmittance of lenses restricts the application for drug delivery. This research uses graphene oxide (GO) to control the release of bimatoprost from contact lenses along with improvements in the drug uptake, and lens swelling and transmittance. GO was loaded into silicone hydrogel contact lenses by adding the GO at the same time as lenses were polymerized. These lenses were soaked in bimatoprost. Alternatively contact lenses, either with or without GO, were produced by adding bimatoprost during lens polymerization. GO improved contact lens swelling due to its water binding capacity and lens transmittance due to the molecular dispersion of bimatoprost on the surface of the GO which prevented the local precipitation of the drug. The bimatoprost uptake was not improved in the presence of GO. However, its in vitro release profile was improved. Adding bimatoprost and GO at the same time as lenses were polymerized (DL-GO-BMT) significantly decreased the loss of drug during extraction and sterilization in comparison to contact lenses (DL-BMT) without GO. As the amount of GO was increased, the DL-GO-BMT lenses showed a significant decrease in the burst and cumulative release of bimatoprost. Ocular irritation and histopathology reports demonstrated the safety of GO contact lens. The in vivo pharmacokinetic studies in the rabbit tear fluid showed significant improvement in mean residence time (MRT) and area under the curve (AUC) with DL-GO-0.2 μg-BMT-100 contact lens in comparison to eye drop solution. The study demonstrated that the addition of GO to contact lenses can control the release of bimatoprost as well as improved the lens swelling and transmittance. However, further optimization is needed to modulate the release of drug within the therapeutic level to manage glaucoma.

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Nanomaterials eJournal

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