通过光线追踪评估人工晶状体倾斜引起的散光。

Astigmatism induced by intraocular lens tilt evaluated via ray tracing.

机构信息

From Cullen Eye Institute, Department of Ophthalmology, Baylor College of Medicine, Houston, Texas, USA.

出版信息

J Cataract Refract Surg. 2018 Jun;44(6):745-749. doi: 10.1016/j.jcrs.2018.04.035. Epub 2018 Jun 1.

DOI:10.1016/j.jcrs.2018.04.035

PMID:29861054

Abstract

PURPOSE

To evaluate astigmatism induced by aspheric and toric intraocular lens (IOL) tilt using a ray-tracing model.

SETTING

Cullen Eye Institute, Baylor College of Medicine, Houston, Texas, USA.

DESIGN

Experimental study.

METHODS

Ray-tracing eye models with aspheric IOLs (16.0 diopters [D], 22.0 D, and 28.0 D) and toric IOLs (16.0 D, 22.0 D, and 28.0 D each with toricities of 1.50 D, 3.75 D, and 6.00 D) were used. The IOLs were tilted from 1 to 10 degrees horizontally around a 90-degree vertical meridian. Toric IOLs were aligned at 90 degrees and 180 degrees to correct with-the-rule (WTR) and against-the-rule (ATR) corneal astigmatism, respectively. Astigmatism at the corneal plane induced by IOL tilt was calculated.

RESULTS

Induced astigmatism increased with increasing IOL tilt and power. Horizontal tilt around a vertical meridian induced ATR astigmatism. For 5 degrees of tilt, induced astigmatism was 0.08 D, 0.11 D, and 0.14 D for 16.0 D, 22.0 D, and 28.0 D aspheric IOLs, respectively. Ten degrees of IOL tilt produced 0.33 D, 0.44 D, and 0.56 D of induced astigmatism for 16.0 D, 22.0 D, and 28.0 D aspheric IOLs, respectively. Tilting toric IOLs aligned at 90 degrees around a vertical meridian increased the magnitude of induced ATR astigmatism. Tilting toric IOLs aligned at 180 degrees decreased the magnitude of induced WTR astigmatism.

CONCLUSIONS

Tilting aspheric IOLs horizontally around a vertical meridian induced ATR astigmatism. Tilting toric IOLs aligned at 90 degrees increased ATR astigmatism, resulting in overcorrection. Tilting toric IOLs aligned at 180 degrees decreased WTR astigmatism, producing undercorrection.

摘要

目的

使用光线追踪模型评估非球面和散光人工晶状体（IOL）倾斜引起的散光。

设置

美国得克萨斯州休斯顿贝勒医学院 Cullen 眼科研究所。

设计

实验研究。

方法

使用具有非球面 IOL（16.0 屈光度 [D]、22.0 D 和 28.0 D）和散光 IOL（16.0 D、22.0 D 和 28.0 D，各具有 1.50 D、3.75 D 和 6.00 D 的散光）的光线追踪眼模型。IOL 分别以 1 度和 10 度的水平倾斜，围绕 90 度垂直子午线。散光 IOL 分别在 90 度和 180 度对齐，以矫正顺规（WTR）和逆规（ATR）角膜散光。计算 IOL 倾斜引起的角膜平面上的散光。

结果

诱导的散光随 IOL 倾斜度和功率的增加而增加。围绕垂直子午线的水平倾斜引起 ATR 散光。对于 5 度的倾斜，16.0 D、22.0 D 和 28.0 D 非球面 IOL 的诱导散光分别为 0.08 D、0.11 D 和 0.14 D。10 度的 IOL 倾斜产生的诱导散光分别为 0.33 D、0.44 D 和 0.56 D，16.0 D、22.0 D 和 28.0 D 非球面 IOL。围绕垂直子午线以 90 度倾斜排列的散光 IOL 增加了诱导的 ATR 散光的大小。以 180 度倾斜排列的散光 IOL 降低了诱导的 WTR 散光的大小。

结论

水平围绕垂直子午线倾斜非球面 IOL 会引起 ATR 散光。以 90 度倾斜排列的散光 IOL 增加了 ATR 散光，导致过矫。以 180 度倾斜排列的散光 IOL 降低了 WTR 散光，导致欠矫。

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通过光线追踪评估人工晶状体倾斜引起的散光。

Astigmatism induced by intraocular lens tilt evaluated via ray tracing.

机构信息

出版信息

PURPOSE

SETTING

DESIGN

METHODS

RESULTS

CONCLUSIONS

目的

设置

设计

方法

结果

结论

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