新型脉络膜上腔至视神经（SCONE）药物输送系统的研制。

Development of a novel SupraChoroidal-to-Optic-NervE (SCONE) drug delivery system.

机构信息

Department of Ophthalmology, Spencer Center for Vision Research, Byers Eye Institute, Palo Alto, CA, USA.

Department of Comparative Medicine, Stanford University, Stanford, CA, USA.

出版信息

Drug Deliv. 2024 Dec;31(1):2379369. doi: 10.1080/10717544.2024.2379369. Epub 2024 Jul 15.

DOI:10.1080/10717544.2024.2379369

PMID:39010743

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC467098/

Abstract

PURPOSE

Targeted drug delivery to the optic nerve head may be useful in the preclinical study and later clinical management of optic neuropathies, however, there are no FDA-approved drug delivery systems to achieve this. The purpose of this work was to develop an optic nerve head drug delivery technique.

METHODS

Different strategies to approach the optic nerve head were investigated, including standard intravitreal and retroorbital injections. A novel SupraChoroidal-to-Optic-NervE (SCONE) delivery was optimized by creating a sclerotomy and introducing a catheter into the suprachoroidal space. Under direct visualization, the catheter was guided to the optic nerve head. India ink was injected. The suprachoroidal approach was performed in New Zealand White rabbit eyes (25 animals total). Parameters, including microneedle size and design, catheter design, and catheter tip angle, were optimized and .

RESULTS

Out of the candidate optic nerve head approaches, intravitreal, retroorbital, and suprachoroidal approaches were able to localize India ink to within 2 mm of the optic nerve. The suprachoroidal approach was further investigated, and after optimization, was able to deposit India ink directly within the optic nerve head in up to 80% of attempts. In eyes with successful SCONE delivery, latency and amplitude of visual evoked potentials was not different than the naïve untreated eye.

CONCLUSIONS

SCONE delivery can be used for targeted drug delivery to the optic nerve head of rabbits without measurable toxicity measured anatomically or functionally. Successful development of this system may yield novel opportunities to study optic nerve head-specific drug delivery in animal models, and paradigm-shifting management strategies for treating optic neuropathies.

TRANSLATIONAL RELEVANCE

Here we demonstrate data on a new method for targeted delivery to the optic nerve head, addressing a significant unmet need in therapeutics for optic neuropathies.

摘要

目的

视神经头部的靶向药物输送可能对视神经病变的临床前研究和后期临床管理有用，但目前还没有获得 FDA 批准的药物输送系统来实现这一目标。本研究的目的是开发一种视神经头部药物输送技术。

方法

研究了几种接近视神经头部的策略，包括标准的玻璃体内和眶内注射。通过创建巩膜切开术并将导管引入脉络膜上腔，优化了一种新的视神经头部药物输送方法（SupraChoroidal-to-Optic-NervE [SCONE] 输送）。在直接可视化下，将导管引导至视神经头部。注射印度墨水。在新西兰白兔眼睛中进行了脉络膜上腔入路（总共 25 只动物）。优化了微针大小和设计、导管设计和导管尖端角度等参数。

结果

在候选的视神经头部方法中，玻璃体内、眶内和脉络膜上方法能够将印度墨水定位在视神经 2mm 以内。进一步研究了脉络膜上方法，经过优化，在高达 80%的尝试中能够将印度墨水直接沉积在视神经头部内。在 SCONE 输送成功的眼睛中，视觉诱发电位的潜伏期和振幅与未经处理的未处理眼睛没有区别。

结论

SCONE 输送可用于将药物靶向输送到兔子的视神经头部，在解剖学或功能上没有可测量的毒性。该系统的成功开发可能为在动物模型中研究视神经头部特定的药物输送提供新的机会，并为治疗视神经病变提供开创性的管理策略。

翻译

马萨诸塞州眼耳医院

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f55b/467098/710623955f35/IDRD_A_2379369_F0001_C.jpg

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新型脉络膜上腔至视神经（SCONE）药物输送系统的研制。

Development of a novel SupraChoroidal-to-Optic-NervE (SCONE) drug delivery system.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

TRANSLATIONAL RELEVANCE

目的

方法

结果

结论

翻译

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