偏心和倾斜对球差矫正和特定非球面人工晶状体的影响：光学平台分析。

Impact of Decentration and Tilt on Spherical, Aberration Correcting, and Specific Aspherical Intraocular Lenses: An Optical Bench Analysis.

机构信息

Borkenstein & Borkenstein, Private Practice at Privatklinik der Kreuzschwestern Graz, Graz, Austria.

Accuratis, Practice for Refractive Eye Surgery, Ulm, Germany.

出版信息

Ophthalmic Res. 2022;65(4):425-436. doi: 10.1159/000522510. Epub 2022 Feb 10.

DOI:10.1159/000522510

PMID:35144263

Abstract

INTRODUCTION

The human eye is not optically symmetrical, and very few intraocular lens (IOLs) are perfectly centered in the eye. That is why contrast sensitivity can degrade in some conditions, especially in low light. In an optical bench analysis, we compare spherical (A), aberration correcting (B), and specific aspherical lenses (C) in terms of impact of decentration and tilt on the modulation transfer function as well as the simulated overall quality with USAF test targets.

MATERIAL AND METHODS

The OptiSpheric IOL PRO2 was used to measure the optical performance of IOLs (A, B, C). In order to assess the optical quality of the IOLs, the optical quality parameters for the aperture size of 3.0 mm and 4.5 mm at the IOL plane were assessed. Through Frequency Modulation Transfer Function (MTF) and Strehl Ratio (SR) values, as well as the "US Airforce 1951 resolution test chart images" as qualitative simulation, were analyzed. All measurements (ISO) were repeated and done for centered, decentered (1 mm), and tilted (5°) IOLs.

RESULTS

Centered: The MTF (mean) at 50 lp/mm (IOL A, B, C) with 3.0-mm aperture was 0.794/0.716/0.797 (ISO-1 cornea) and 0.673/0.752/0.723 (ISO-2 cornea) and with 4.5-mm aperture 0.728/0.365/0.751 (ISO 1) and 0.276/0.767/0.505 (ISO 2). The SR (mean) with 3.0-mm aperture was 0.763/0.829/0.898 and with 4.5-mm aperture 0.228/0.386/0.432. Decentered by 1 mm: The MTF (mean) at 50 lp/mm with 3.0-mm aperture was 0.779/0.459/0.726 (ISO 1) and 0.695/0.381/0.662 (ISO 2). The MTF (mean) at 50 lp/mm with 4.5-mm aperture was 0.732/0.348/0.653 (ISO 1) and 0.355/0.069/0.346 (ISO 2). The SR (mean) with 3.0-mm aperture was 0.829/0.543/0.397 and with 4.5-mm aperture was 0.259/0.145/0.192. Tilted by 5°: The MTF (mean) at 50 lp/mm with 3.0-mm aperture was 0.731/0.705/0.751 (ISO 1) and 0.623/0.727/0.732 (ISO 2). The MTF (mean) at 50 lp/mm with 4.5-mm aperture was 0.579/0.406/0.701 (ISO 1) and 0.277/0.512/0.429 (ISO 2). The SR (mean) with 3.0-mm aperture was 0.539/0.478/0.514 and with 4.5-mm aperture was 0.262/0.136/0.201.

CONCLUSION

Aberration correcting IOLs perform best when perfectly centered. The optical performance of aberration correcting IOLs can be markedly downgraded by misalignment. The examined ZO optic performed well in decentration and tilt. The ZO concept seems to be a good alternative to aspheric lenses, as it achieves to combine benefits of spherical and aspheric intraocular lenses. There is no perfect IOL, but fitting and choosing the right one for the individual case seems to be crucial to take advantage of benefits and minimize disadvantages. This is why knowledge of optical properties is also mandatory for the surgeon.

摘要

简介

人眼并非光学对称，很少有人工晶状体 (IOL) 完全位于眼球中心。这就是为什么在某些情况下对比度敏感度会下降，尤其是在低光环境下。在光学台分析中，我们比较了球面 (A)、像差矫正 (B) 和特定非球面 (C) 晶状体，以评估偏心和倾斜对调制传递函数的影响，以及使用美国空军测试目标进行模拟的整体质量。

材料与方法

使用 OptiSpheric IOL PRO2 测量 IOL(A、B、C) 的光学性能。为了评估 IOL 的光学质量，评估了孔径尺寸为 3.0mm 和 4.5mm 的 IOL 平面的光学质量参数。通过频率调制传递函数 (MTF) 和斯特列尔比 (SR) 值，以及“美国空军 1951 分辨率测试图表图像”的定性模拟进行分析。所有测量（ISO）均重复进行，并针对中心、偏心（1mm）和倾斜（5°）的 IOL 进行。

结果

中心位置：50lp/mm（IOL A、B、C）的 MTF（平均值），3.0mm 孔径时为 0.794/0.716/0.797（ISO-1 角膜）和 0.673/0.752/0.723（ISO-2 角膜），4.5mm 孔径时为 0.728/0.365/0.751（ISO-1）和 0.276/0.767/0.505（ISO-2）。3.0mm 孔径时的 SR（平均值）为 0.763/0.829/0.898，4.5mm 孔径时为 0.228/0.386/0.432。偏心 1mm：50lp/mm 的 MTF（平均值），3.0mm 孔径时为 0.779/0.459/0.726（ISO-1）和 0.695/0.381/0.662（ISO-2）。4.5mm 孔径时为 0.732/0.348/0.653（ISO-1）和 0.355/0.069/0.346（ISO-2）。3.0mm 孔径时的 SR（平均值）为 0.829/0.543/0.397，4.5mm 孔径时为 0.259/0.145/0.192。倾斜 5°：50lp/mm 的 MTF（平均值），3.0mm 孔径时为 0.731/0.705/0.751（ISO-1）和 0.623/0.727/0.732（ISO-2）。4.5mm 孔径时为 0.579/0.406/0.701（ISO-1）和 0.277/0.512/0.429（ISO-2）。3.0mm 孔径时的 SR（平均值）为 0.539/0.478/0.514，4.5mm 孔径时为 0.262/0.136/0.201。

结论

像差矫正 IOL 在完全居中时效果最佳。像差矫正 IOL 的光学性能可能因失准而明显降低。所检查的 ZO 光学元件在偏心和倾斜方面表现良好。ZO 概念似乎是一种替代非球面晶状体的好方法，因为它能够结合球面和非球面人工晶状体的优点。没有完美的 IOL，但对于个体病例来说，合适的选择似乎是利用优势和最小化劣势的关键。这就是为什么外科医生也需要了解光学特性。

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偏心和倾斜对球差矫正和特定非球面人工晶状体的影响：光学平台分析。

Impact of Decentration and Tilt on Spherical, Aberration Correcting, and Specific Aspherical Intraocular Lenses: An Optical Bench Analysis.

机构信息

出版信息

INTRODUCTION

MATERIAL AND METHODS

RESULTS

CONCLUSION

简介

材料与方法

结果

结论

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