Conditions for modifying intraocular lenses as drug carriers for methotrexate using poly (lactic-co-glycolic acid).

IF 1.4 4区医学 Q3 OPHTHALMOLOGY European Journal of Ophthalmology Pub Date : 2024-11-01 Epub Date: 2024-03-18 DOI:10.1177/11206721241239717

Clarissa Bill, Stefan Kassumeh, Christina Hilterhaus, Natalie Tersi, Arne J Speidel, Andreas Ohlmann, Siegfried Priglinger, Claudia Priglinger, Armin Wolf, Christian M Wertheimer

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Abstract

Introduction: The intraocular lens (IOL) can be used as a slow-release drug carrier in cataract surgery to alleviate posterior capsular opacification (PCO). The following is a systematic development of an IOL using methotrexate and the solvent casting process with poly (lactic-co-glycolic acid) (PLGA) as a carrier polymer.

Methods: Different solvents for PLGA and methotrexate were tested for dissolution properties and possible damage to the IOL. The required biological concentration of methotrexate was determined in human capsular bags implanted with an IOL. To detect fibrosis, α-SMA, f-actin, and fibronectin were labelled by immunofluorescence staining. Cell proliferation and extracellular matrix contraction were observed in a lens epithelial cell line (FHL-124). Finally, the IOL was designed, and an ocular pharmacokinetic model was used to measure drug release.

Results: Solvent mixtures were found to allow coating of the IOL with drug and PLGA without damaging it. PCO in the capsular bag model was inhibited above 1 μM methotrexate (p = 0.02). Proliferation in FHL-124 was significantly reduced above a concentration of 10 nM (p = 0.04) and matrix contraction at 100 nM (p = 0.02). The release profile showed a steady state within therapeutic range.

Conclusion: After determination of the required physicochemical manufacturing conditions, a drug releasing IOL was designed. A favourable release profile in an ocular pharmacokinetics model could be shown.

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使用聚（乳酸-共聚-乙醇酸）对作为甲氨蝶呤药物载体的眼内透镜进行改性的条件。

导言：在白内障手术中，人工晶体（IOL）可作为缓释药物载体，缓解后囊混浊（PCO）。以下是使用甲氨蝶呤和聚乳酸-共聚乙醇酸（PLGA）作为载体聚合物的溶剂铸造工艺对人工晶体的系统开发：方法：测试了 PLGA 和甲氨蝶呤的不同溶剂的溶解特性以及对人工晶体可能造成的损害。在植入人工晶体的人体囊袋中测定甲氨蝶呤所需的生物浓度。为了检测纤维化，采用免疫荧光染色法标记了α-SMA、f-肌动蛋白和纤连蛋白。在晶状体上皮细胞系（FHL-124）中观察到细胞增殖和细胞外基质收缩。最后，设计了人工晶体，并使用眼部药代动力学模型测量药物释放：结果：发现混合溶剂可以在人工晶体上涂覆药物和 PLGA 而不会对其造成损害。囊袋模型中的 PCO 在 1 μM 甲氨蝶呤以上受到抑制（p = 0.02）。浓度超过 10 nM 时，FHL-124 的增殖明显减弱（p = 0.04），浓度为 100 nM 时，基质收缩明显减弱（p = 0.02）。释放曲线显示治疗范围内的稳定状态：结论：在确定了所需的物理化学生产条件后，设计出了一种药物释放型人工晶体。结论：在确定了所需的物理化学制造条件后，设计出了一种药物释放型人工晶体，并在眼部药代动力学模型中显示出良好的释放曲线。

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来源期刊

European Journal of Ophthalmology 医学-眼科学

CiteScore

3.60

自引率

0.00%

发文量

372

审稿时长

3-8 weeks

期刊介绍： The European Journal of Ophthalmology was founded in 1991 and is issued in print bi-monthly. It publishes only peer-reviewed original research reporting clinical observations and laboratory investigations with clinical relevance focusing on new diagnostic and surgical techniques, instrument and therapy updates, results of clinical trials and research findings.