An investigation of CO2 laser scleral buckling using moiré interferometry.

Ophthalmic surgery and lasers Pub Date : 2002-05-01 DOI:10.3928/1542-8877-20020501-09

S. Maswadi, P. Dyer, D. Verma, Wadah Jalabi, D. Dave

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Abstract

BACKGROUND AND OBJECTIVE To demonstrate suitability of moiré interferometry to assess and quantify laser-induced shrinkage of scleral collagen for buckling procedures. MATERIALS AND METHODS Scleral buckling of human cadaver eyes was investigated using a Coherent Ultrapulse CO2 laser. Projection moiré interferometry was employed to determine the out-of plane displacement produced by laser exposure, and in-situ optical microscopy of reference markers on the eye was used to measure in-plane shrinkage. RESULTS Measurements based on moiré interferometry allow a three dimensional view of shape changes in the eye surface as laser treatment proceeds. Out-of-plane displacement reaches up to 1.5 mm with a single laser spot exposure. In-plane shrinkage reached a maximum of around 30%, which is similar to that reported by Sasoh et al (Ophthalmic Surg Lasers. 1998;29:410) for a Tm:YAG laser. CONCLUSION The moiré technique is found to be suitable for quantifying the effects of CO2 laser scleral shrinkage and buckling. This can be further developed to provide a standardized method for experimental investigations of other laser sources for scleral shrinkage.

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用激光干涉法研究CO2激光巩膜屈曲。

背景与目的证明激光干涉法在屈曲手术中评估和量化巩膜胶原收缩的适用性。材料与方法用相干超脉冲CO2激光研究了人尸体眼睛的屈曲现象。投影干涉法测定激光曝光产生的面外位移，眼内参考标记物原位光学显微镜测定面内收缩。结果:在激光治疗过程中，基于莫尔干涉测量法的测量可以获得眼表面形状变化的三维视图。单激光光斑曝光时，面外位移可达1.5 mm。面内收缩率最大可达30%左右，这与Sasoh等人(Ophthalmic Surg Lasers. 1998; 29:10 10)对Tm:YAG激光器的报道相似。结论moir技术适用于定量CO2激光巩膜收缩屈曲的效果。这可以进一步发展，为其他激光源对巩膜收缩的实验研究提供一个标准化的方法。

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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Ophthalmic surgery and lasers

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