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利用 OCT 控制人供体眼角膜的飞秒薄瓣 LASIK

Control of femtosecond thin-flap LASIK using OCT in human donor eyes.

机构信息

Augenklinik am Neumarkt, Cologne, Germany.

出版信息

J Refract Surg. 2010 Jan;26(1):57-60. doi: 10.3928/1081597X-20101215-09.

DOI:10.3928/1081597X-20101215-09
PMID:20199014
Abstract

PURPOSE

Thin-flap keratomileusis is a procedure that minimizes LASIK flap thickness to preserve both the corneal epithelium and the maximum residual stroma. This study investigated the usefulness of optical coherence tomography (OCT) as a tool in guiding the femtosecond laser in the creation of a thin flap in human eyes in a non-randomized case series.

METHODS

In a private research laboratory, an in vitro investigation was performed on human autopsy eyes. Five human cadaver eyes, unsuitable for transplantation, underwent flap creation with a femtosecond laser. The laser procedure was controlled in real-time with an OCT system (Thorlabs HL AG) to ensure that the cut was placed just underneath Bowman's layer. The repetition rate of the femtosecond laser was 10 MHz with a single-pulse duration of <400 femtoseconds (pulse energy in the nJ range). As a control, all eyes underwent histological dissection and were examined using light microscopy.

RESULTS

Video monitoring of the flap creation supported the feasibility of real-time OCT monitoring of the femtosecond laser flap creation process. A clear distinction of the corneal epithelium was possible in all eyes. Bowman's layer was not identified in all donor eyes at the given resolution of the OCT device used in this study. Light microscopy demonstrated flaps approximately 50-microm thick, confirming that the real-time monitoring assured a positioning of the cutting plane at minimum distance underneath Bowman's layer.

CONCLUSIONS

This study of five human cadaver eyes shows that real-time OCT monitoring of the creation of thin-flaps in LASIK using a femtosecond laser is possible, thus ensuring that the flap is created at the desired depth.

摘要

目的

薄瓣角膜磨镶术是一种将 LASIK 瓣厚度最小化的手术,以保留角膜上皮和最大的剩余基质。本研究通过非随机病例系列研究,调查了光学相干断层扫描(OCT)作为引导飞秒激光在人眼制作薄瓣的工具的有用性。

方法

在一个私人研究实验室中,对人尸眼球进行了体外研究。五个人体尸检眼球不适合移植,通过飞秒激光进行瓣制作。激光程序通过 OCT 系统(Thorlabs HL AG)实时控制,以确保切口置于 Bowman 层下方。飞秒激光的重复率为 10 MHz,单脉冲持续时间<400 飞秒(纳焦耳范围内的脉冲能量)。作为对照,所有眼球均进行组织学解剖,并通过光镜检查。

结果

瓣制作的视频监测支持实时 OCT 监测飞秒激光瓣制作过程的可行性。所有眼球均能清晰区分角膜上皮。在本研究中使用的 OCT 设备的给定分辨率下,并非所有供体眼球均能识别 Bowman 层。光镜显示瓣厚度约为 50 微米,证实实时监测可确保切割平面位于 Bowman 层下方的最小距离处定位。

结论

本研究对五个人体尸检眼球的研究表明,使用飞秒激光对 LASIK 进行薄瓣制作的实时 OCT 监测是可行的,从而确保瓣制作在所需深度。

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