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React Funct Polym. 2018 Oct;131:29-35. doi: 10.1016/j.reactfunctpolym.2018.06.010. Epub 2018 Jul 2.
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3D 可打印、改良环钻设计,用于兔眼准分子激光前弹力层角膜磨镶术中获得一致的角膜浅层切削伤口。

3D Printable, Modified Trephine Designs for Consistent Anterior Lamellar Keratectomy Wounds in Rabbits.

机构信息

Ophthalmology, Stanford University School of Medicine, Stanford, California, USA.

VA Palo Alto Health Care System, Palo Alto, California, USA.

出版信息

Curr Eye Res. 2021 Aug;46(8):1105-1114. doi: 10.1080/02713683.2020.1868010. Epub 2021 Jan 21.

DOI:10.1080/02713683.2020.1868010
PMID:33474996
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8483018/
Abstract

PURPOSE

Our goal is to develop a low-cost tool that can be used to create consistent, partial-thickness defects in rabbit and other large animals with minimal surgical training and that can facilitate pre-clinical testing of lamellar and in situ-forming biosynthetic matrix materials for corneal repair.

MATERIALS & METHODS: In this study, three modified trephines were designed to create deep corneal wound defects with consistent depth in large animals. The modified trephines incorporated either 3D-printed parts made from photopolymerizable resins, or custom-cut commercially available Teflon sheets. Wound defects were imaged with optical coherence tomography (OCT), and the depth was analyzed based on the OCT images.

RESULTS

The results revealed that an inner-stopper guard trephine had the best performance in creating consistent and precise wound defect depth compared to modified vacuum trephine and custom guard vacuum trephine. A 75% ± 10% cut of the cornea was achieved with the inner-stopper guard trephine. The wound defect depth by created by the inner-stopper guard trephine was independent of the corneal thickness or size of the globes. Although the cut depth of the inner-stopper guard trephine differed by the experience-level of its users, the consistency (standard deviation) of the depth was independent of experience.

CONCLUSIONS

Our studies provided three cost-efficient animal trephines that can create corneal wounds of consistent depth by lab researchers without extensive training in keratectomy.

摘要

目的

我们的目标是开发一种低成本的工具,该工具可以在经过最少的手术培训的情况下,在兔子和其他大型动物身上产生一致的、部分厚度的缺陷,并且可以促进用于角膜修复的层状和原位形成生物合成基质材料的临床前测试。

材料与方法

在这项研究中,设计了三个改良环钻,以在大型动物中产生具有一致深度的深角膜伤口缺陷。改良环钻采用可光聚合树脂制成的 3D 打印部件,或定制切割的市售聚四氟乙烯片制成。使用光学相干断层扫描(OCT)对伤口缺陷进行成像,并根据 OCT 图像分析深度。

结果

结果表明,与改良的真空环钻和定制的护圈真空环钻相比,带有内止动器护圈的环钻在创建一致且精确的伤口缺陷深度方面表现最佳。使用内止动器护圈可实现角膜的 75%±10%切除。内止动器护圈所产生的伤口缺陷深度与角膜厚度或眼球大小无关。虽然内止动器护圈的切割深度因使用者的经验水平而异,但深度的一致性(标准差)与其无关。

结论

我们的研究提供了三种具有成本效益的动物环钻,未经角膜切除术广泛培训的实验室研究人员也可以使用这些环钻来产生一致深度的角膜伤口。