A New Technique for Harvesting Limbal Stem Cell Tissue for Transplantation Using an Automated Microkeratome and a Novel Globe-Fixation System.

IF 1.9 3区医学 Q2 OPHTHALMOLOGY Cornea Pub Date : 2024-10-01 Epub Date: 2024-05-23 DOI:10.1097/ICO.0000000000003572

Zahra Bibak-Bejandi, Seyed-Farzad Mohammadi, Mehdi Davoudi, Amirhossein Bahmanpour, Fahimeh Asadi-Amoli

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Abstract

Purpose: To introduce an unprecedented technique, instrumentation, and setup for the superficial limbus harvest from the human cadaver donor whole globe.

Methods: We studied several superficial limbus harvest alternatives, developed a preferred approach with our available instruments, and optimized it on a handful of (seropositive) cadaver donors of whole globes.

Results/technique: The globe was pressurized to about normal intraocular pressure by viscoelastic injection through the optic nerve stump. The globe was then mounted on a dynamic globe fixator that maintained a negative pressure in its stabilizing socket. Exertion of the negative pressure effectively elevated globe intraocular pressure (to over 40 mm Hg) and made the corneoscleral wall tight. The socket was then held tilted to the left side for about 35 to 40 degrees to put the limbal zone horizontally and mildly "chin-up." Next, the microkeratome was put on the uppermost and exposed limbus of the globe and activated, and the socket was rotated clockwise under the microkeratome head and its oscillating blade, allowing an effective 360-degree revolution of the microkeratome head around the limbal belt (for a right-handed operator and a counterclockwise cut).

Conclusions: We consistently succeeded in peeling intact 360-degree strips of the smooth superficial limbus by using blades with varying depths. Our method can be further equipped and optimized and be used by the eye banks and the surgeons for keratolimbal grafting as a more efficient limbal stem cell tissue harvest technique.

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使用自动显微角膜切割器和新型球形固定系统采集移植用瓣膜干细胞组织的新技术。

目的：介绍一种史无前例的技术、器械和设置，用于从尸体捐献者的整个眼球上摘取浅层瓣膜：方法：我们研究了几种表层边缘摘取替代方法，利用现有仪器开发了一种首选方法，并在少数（血清反应阳性）尸体捐献者的整个眼球上对其进行了优化：通过视神经残端注入粘弹剂，将眼球加压至正常眼压。然后将眼球安装在动态眼球固定器上，该固定器可在其稳定窝内保持负压。负压的作用有效地提高了眼球内压（超过 40 毫米汞柱），并使角膜巩膜壁变得紧实。然后，将插座向左侧倾斜约 35 至 40 度，使边缘区水平并轻度 "抬起下巴"。接着，将微角膜刀放在球面最上方暴露的瓣缘上并启动，然后在微角膜刀头及其摆动刀片下顺时针旋转插座，使微角膜刀头围绕瓣带有效旋转 360 度（对于右手操作者和逆时针切割而言）：结论：通过使用不同深度的刀片，我们始终成功地在光滑的浅层角膜缘上剥离出 360 度的完整条带。我们的方法可以进一步装备和优化，并被眼库和外科医生用于角膜移植，成为一种更有效的角膜缘干细胞组织采集技术。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cornea 医学-眼科学

CiteScore

5.20

自引率

10.70%

发文量

354

审稿时长

3-6 weeks

期刊介绍： For corneal specialists and for all general ophthalmologists with an interest in this exciting subspecialty, Cornea brings together the latest clinical and basic research on the cornea and the anterior segment of the eye. Each volume is peer-reviewed by Cornea''s board of world-renowned experts and fully indexed in archival format. Your subscription brings you the latest developments in your field and a growing library of valuable professional references. Sponsored by The Cornea Society which was founded as the Castroviejo Cornea Society in 1975.