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一种用于计算复曲面人工晶状体的光线追踪方法。

A ray tracing approach to calculate toric intraocular lenses.

机构信息

Augen-und-Laserklinik, Castrop-Rauxel, Germany.

出版信息

J Refract Surg. 2013 Jun;29(6):402-8. doi: 10.3928/1081597X-20130515-04.

DOI:10.3928/1081597X-20130515-04
PMID:23739832
Abstract

PURPOSE

To quantify the precision of astigmatic correction in routine cataract surgery with toric intraocular lenses (IOLs) and to evaluate the predictability of keratometric and anterior/posterior topographic measurement for the improvement of the overall accuracy.

METHODS

Seventy-eight eyes of 56 patients were implanted with toric IOLs. Data acquired by the Lenstar optical biometer (Haag-Streit, Bern, Switzerland) and TMS5 topography (Tomey, Nagoya, Japan) were processed with the ray tracing software Okulix (Tedics, Dortmund, Germany) to predict the residual refraction. Four different inputs were examined: keratometry only, anterior topography, anterior and posterior topography/ tomography, and combination of keratometry only and anterior and posterior topography/tomography. Four weeks postoperatively, the spherical prediction error and the cylindrical prediction error (difference vector between predicted and achieved cylindrical refraction) were determined.

RESULTS

Mean absolute error of spherical prediction error was 0.27 diopter (D). Cylindrical prediction errors were 0.57 D (keratometry only), 0.56 D (anterior topography), 0.56 D (anterior and posterior topography/ tomography), and 0.50 D (combination of keratometry only and anterior and posterior topography/tomography). Differences between intraocular lens groups were statistically significant (Friedman test, P < .05).

CONCLUSION

The combination of keratometry and anterior and posterior topography/tomography of anterior and posterior surface yielded the best results for toric IOL power calculations.

摘要

目的

定量分析常规白内障手术中散光矫正的精度,并评估角膜曲率计和前/后表面地形图测量对提高整体准确性的预测能力。

方法

56 例 78 只眼植入了散光人工晶状体(IOL)。使用 Lenstar 光学生物测量仪(瑞士 Haag-Streit)和 TMS5 地形图(日本 Tomy)获取数据,并使用光线追踪软件 Okulix(德国 Tedics)对其进行处理,以预测残余屈光。检查了 4 种不同的输入方式:仅角膜曲率计、前表面地形图、前表面和后表面地形图/断层扫描,以及仅角膜曲率计和前表面和后表面地形图/断层扫描的组合。术后 4 周,确定球镜预测误差和柱镜预测误差(预测和获得的柱镜屈光度之间的差异向量)。

结果

球镜预测误差的平均绝对误差为 0.27 屈光度(D)。柱镜预测误差分别为 0.57 D(仅角膜曲率计)、0.56 D(前表面地形图)、0.56 D(前表面和后表面地形图/断层扫描)和 0.50 D(仅角膜曲率计和前表面和后表面地形图/断层扫描的组合)。不同人工晶状体组之间的差异具有统计学意义(Friedman 检验,P<.05)。

结论

对于散光 IOL 功率计算,仅角膜曲率计和前表面和后表面地形图/断层扫描的组合可获得最佳结果。

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