通过纳米结晶和添加tyloxapol提高布林佐胺治疗青光眼的疗效。

IF 1.2 Q4 PHARMACOLOGY & PHARMACY Journal of Pharmaceutical Health Care and Sciences Pub Date : 2024-09-05 DOI:10.1186/s40780-024-00375-5
Shuya Masuda, Shiho Yano, Tomohisa Tadokoro, Hiroko Otake, Noriaki Nagai
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引用次数: 0

摘要

背景:布林佐胺(BRI)混悬液可用于治疗青光眼;然而,由于溶解度差,滴眼液给药后无法将药物充分输送到目标组织。为解决这一问题,我们重点研究了纳米晶体技术,该技术有望提高溶解度差药物的生物利用度,并研究了BRI纳米晶体制剂对角膜渗透性和降低眼压(IOP)效果的影响:方法:采用湿法研磨法制备BRI纳米晶制剂,并加入微珠和添加剂。粒度用 NANOSIGHT LM10 测量,形态用扫描探针显微镜(SPM-9700)和扫描电子显微镜(SEM)测定。在体外用大鼠角膜的弗朗兹扩散池评估了角膜渗透性,在体内用兔子进行了角膜渗透性评估,并用兔子高血压模型研究了降低眼压的效果:结果:制备的 BRI 纳米晶体制剂的粒径范围为 50 至 300 nm,平均粒径为 135 ± 4 nm。其形态为结晶状,纳米颗粒分散均匀。在角膜渗透性研究中,BRI 纳米结晶的角膜渗透性高于非研磨制剂。这一结果可能是由于纳米结晶提高了 BRI 的溶解度,以及 BRI 纳米颗粒附着在细胞膜上诱导了能量依赖性内吞作用。此外,在BRI纳米晶体制剂中加入tyloxapol可进一步提高BRI的眼内穿透性,并显示出比商业产品更强的降低眼压效果:BRI纳米结晶与tyloxapol的结合有望在青光眼治疗中发挥高效作用,并成为新型眼科给药的有用工具。
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Enhancement of therapeutic efficacy of Brinzolamide for Glaucoma by nanocrystallization and tyloxapol addition.

Background: Brinzolamide (BRI) suspensions are used for the treatment of glaucoma; however, sufficient drug delivery to the target tissue after eye drop administration is hampered by poor solubility. To address this issue, we focused on nanocrystal technology, which is expected to improve the bioavailability of poor-solubility drugs, and investigated the effect of BRI nanocrystal formulations on corneal permeability and intraocular pressure (IOP)-reducing effect.

Methods: BRI nanocrystal formulations were prepared by the wet-milling method with beads and additives. The particle size was measured by NANOSIGHT LM10, and the morphology was determined using a scanning probe microscope (SPM-9700) and a scanning electron microscope (SEM). Corneal permeability was evaluated in vitro using a Franz diffusion cell with rat corneas and in vivo using rabbits, and the IOP-reducing effect was investigated using a rabbit hypertensive model.

Results: The particle size range for prepared BRI nanocrystal formulation was from 50 to 300 nm and the mean particle size was 135 ± 4 nm. The morphology was crystalline, and the nanoparticles were uniformly dispersed. In the corneal permeability study, BRI nanocrystallization exhibited higher corneal permeability than non-milled formulations. This result may be attributed to the increased solubility of BRI by nanocrystallization and the induction of energy-dependent endocytosis by the attachment of BRI nanoparticles to the cell membrane. Furthermore, the addition of tyloxapol to BRI nanocrystal formulation further improved the intraocular penetration of BRI and showed a stronger IOP-reducing effect than the commercial product.

Conclusions: The combination of BRI nanocrystallization and tyloxapol is expected to be highly effective in glaucoma treatment and a useful tool for new ophthalmic drug delivery.

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来源期刊
CiteScore
1.80
自引率
0.00%
发文量
29
审稿时长
8 weeks
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