抗血管内皮生长因子药物雷尼珠单抗负载聚乳酸(PLGA)/聚乳酸(PLA)共聚物纳米微孔的新型制备方法,用于治疗老年性黄斑变性的长效眼内给药疗法

IF 3.4 3区 环境科学与生态学 Q3 CELL & TISSUE ENGINEERING
Jin-feng Xu , Yan-ping Wang , Xiao-hua Liu
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引用次数: 0

摘要

年龄相关性黄斑变性是全球眼底病致盲的第三大主要原因。目前仍需要一种可靠而持久的眼内给药方法。因此,本研究旨在开发一种新型共聚物纳米微囊(Rabz-CP-NMs),用于治疗老年性黄斑变性。共聚纳米微球的 CMC 值较低,为 6.2 μg/ml。采用环状共聚法制造了纳米微囊,并通过傅立叶变换红外光谱、X射线衍射、TEM、DLS和Zeta电位进行了表征。Rabz-CP-NMs 呈球形,大小为 10-50 纳米。Rabz-CP-NMs 与 D407 和 ARPE19 眼细胞系的细胞活力呈剂量依赖关系。细胞活力测定结果表明,Rabz-CP-NMs 的毒性更小、吸收率更高、细胞死亡率更低,而且对血管内皮生长因子-A 的抑制作用更持久。因此,Rabz-CP-NMs 在眼部使用是安全的,这表明它可用于改善眼内 AMD 的治疗。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Novel fabrication of anti-VEGF drug ranibizumab loaded PLGA/PLA co-polymeric nanomicelles for long-acting intraocular delivery in the treatment of age-related macular degeneration therapy

Age associated macular degeneration is the 3rd primary cause of blind fundus diseases globally. A reliable and long-lasting method of intraocular drug delivery is still needed. Herein, this study was aim to develop the novel fabrication of ranibizumab loaded co-polymeric nanomicelles (Rabz-CP-NMs) for AMD. The CMC of co-polymeric nanomicelles was determined to be low, at 6.2 μg/ml. The ring copolymerization method was employed to fabricate the NMs and characterize via FTIR, XRD, TEM, DLS and Zeta potential. Rabz-CP-NMs was spherical shape with 10–50 nm in size. Stable and prolonged drug release was achieved with the Rabz from CP-NMs at 48 h. D407 and ARPE19 ocular cell lines showed dose-dependent cell viability with Rabz-CP-NMs. The Rabz-CP-NMs also had less toxicity, higher uptake, lower cell death and prolonged VEGF-A inhibition, as shown by cytoviability assay. Thus, Rabz-CP-NMs were safe for ocular use, suggesting that could be used to improve intraocular AMD treatment.

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来源期刊
Regenerative Therapy
Regenerative Therapy Engineering-Biomedical Engineering
CiteScore
6.00
自引率
2.30%
发文量
106
审稿时长
49 days
期刊介绍: Regenerative Therapy is the official peer-reviewed online journal of the Japanese Society for Regenerative Medicine. Regenerative Therapy is a multidisciplinary journal that publishes original articles and reviews of basic research, clinical translation, industrial development, and regulatory issues focusing on stem cell biology, tissue engineering, and regenerative medicine.
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