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用于经巩膜细胞和基因治疗递送的图像引导非玻璃体切割视网膜下通路方法的开发。

Development of an image-guided non-vitrectomy subretinal access approach for trans-scleral cell and gene therapy delivery.

作者信息

Singh Mandeep S, Guo Shoujing, Toomey Christopher B, McNally Minda, Harris-Bookman Sarah, Li Kang, Agakishiev Dzhalal, Wei Shuwen, Lee Soohyun, Perrino Kathleen, Wolfe Kevin C, Kang Jin U

出版信息

bioRxiv. 2025 Mar 1:2025.02.25.640217. doi: 10.1101/2025.02.25.640217.

DOI:10.1101/2025.02.25.640217
PMID:40060673
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11888455/
Abstract

PURPOSE

Regenerative therapies for retinal diseases include cell and gene therapy modalities that are targeted to the subretinal space. Several recent clinical trials have shown that the morbidity of surgical access is the major limitation of safe subretinal space delivery. We aimed to develop an image-guided procedure for minimally invasive subretinal access (MISA) as a platform to deliver therapeutic agents for the treatment of degenerative retinal diseases.

METHODS

We engineered prototypes of a novel common-path swept source optical coherence tomography (CP-SSOCT)-enabled needle, coaxial guide (COG), and subretinal access cannula (SAC). We pilot tested the MISA procedure in bovine eyes and porcine ocular surgery.

RESULTS

A- and M-mode scan recordings of and animal eye models demonstrated that CP-SSOCT imaging from the scleral side ( ) was capable of identifying the retinal laminae and the sub-retinal space. We show results from porcine MISA surgeries (N=4) using the novel CP-SSOCT-enabled sub-retinal injection needle, COG, and SAC through the transscleral approach. The MISA approach enabled subretinal device placement in the posterior pole, however, cases of retinal incarceration and retinal perforation were encountered.

CONCLUSIONS

We describe a novel CP-SSOCT-guided subretinal access approach that, with further optimization, may be useful in regenerative retinal surgery.

摘要

目的

视网膜疾病的再生疗法包括针对视网膜下间隙的细胞和基因治疗方式。最近的几项临床试验表明,手术入路的发病率是安全的视网膜下间隙给药的主要限制因素。我们旨在开发一种图像引导的微创视网膜下入路(MISA)程序,作为一种为治疗退行性视网膜疾病输送治疗药物的平台。

方法

我们设计了一种新型的共光路扫频源光学相干断层扫描(CP-SSOCT)启用针、同轴引导器(COG)和视网膜下穿刺套管(SAC)的原型。我们在牛眼和猪眼手术中对MISA程序进行了初步测试。

结果

动物眼模型的A扫描和M扫描记录表明,从巩膜侧( )进行的CP-SSOCT成像能够识别视网膜层和视网膜下间隙。我们展示了使用新型CP-SSOCT启用的视网膜下注射针、COG和SAC通过经巩膜途径进行的4例猪MISA手术的结果。MISA方法能够将视网膜下装置放置在后极,但遇到了视网膜嵌顿和视网膜穿孔的情况。

结论

我们描述了一种新型的CP-SSOCT引导的视网膜下入路方法,经过进一步优化,可能对视网膜再生手术有用。