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使用近轴屈光计算的厚薄人工晶状体屈光力公式的准确性。

Accuracy of thick and thin intraocular lens power formulas using paraxial vergence calculation.

作者信息

Næser Kristian, Nielsen Rasmus

机构信息

From the Randers Regional Hospital, Randers, Denmark.

出版信息

J Cataract Refract Surg. 2025 Mar 1;51(3):182-187. doi: 10.1097/j.jcrs.0000000000001584.

DOI:10.1097/j.jcrs.0000000000001584
PMID:39602360
Abstract

PURPOSE

To compare the prediction errors (PEs) of several thick intraocular lens (IOL) formulas with a thin lens approach using variations of the same paraxial vergence calculation formula.

SETTING

Department of Ophthalmology, Randers Regional Hospital, Denmark.

DESIGN

Prospective, noninterventional study.

METHODS

Optical low coherence reflectometry biometry was prospectively and consecutively performed in 132 eyes with subsequent phacoemulsification and insertion of the same aspheric IOL model. Clinical refraction was performed 2 months postoperatively. Retrospectively, the same paraxial vergence formula was used and only the methods were varied for calculating the postoperative IOL position, thickness, and curvatures to construct 4 formulas: Næser I formula based on thick lens calculation using the manufacturer's cutting card information, Næser II formula based on thick lens calculation using calculated IOL data from open sources, Næser III formula based on thick lens calculation and a fixed IOL thickness of 0.62 mm, and Næser IV formula based on thin lens calculation with fixed IOL position 0.31 mm anterior to the postoperative capsule. Each formula was optimized separately, hereby assuring a mean error of zero. The PE was defined as the difference between the measured and predicted spherical equivalent refraction.

RESULTS

Mean absolute error amounted to 0.30 ± 0.26 diopters for all 4 formulas with no statistically significant difference. PE averaged zero for short, normal, and long eyes.

CONCLUSIONS

The additional optical information provided by thick IOL calculations seems insignificant compared with other sources of error, related to the accuracy of IOL manufacturing, crystalline lens refractive index, and postoperative refraction.

摘要

目的

使用相同近轴聚散度计算公式的不同变体,比较几种厚人工晶状体(IOL)公式与薄透镜方法的预测误差(PE)。

设置

丹麦兰讷斯地区医院眼科。

设计

前瞻性、非干预性研究。

方法

对132只眼进行前瞻性连续光学低相干反射测量生物测量,随后进行超声乳化并植入相同的非球面IOL模型。术后2个月进行临床验光。回顾性地,使用相同的近轴聚散度公式,仅改变计算术后IOL位置、厚度和曲率的方法来构建4个公式:基于使用制造商切割卡信息的厚透镜计算的Næser I公式,基于使用公开来源计算的IOL数据的厚透镜计算的Næser II公式,基于厚透镜计算且固定IOL厚度为0.62 mm的Næser III公式,以及基于薄透镜计算且IOL位置固定在术后囊膜前方0.31 mm的Næser IV公式。每个公式分别进行优化,从而确保平均误差为零。PE定义为测量的和预测的等效球镜度之间的差值。

结果

所有4个公式的平均绝对误差为0.30±0.26屈光度,无统计学显著差异。短眼、正常眼和长眼的PE平均为零。

结论

与其他误差来源相比,厚IOL计算提供的额外光学信息似乎微不足道,这些误差来源与IOL制造精度、晶状体折射率和术后验光有关。

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