A Modified Formula for Intraocular Lens Power Calculation Based on Aphakic Refraction in a Pediatric Population.

IF 1.6 Q3 OPHTHALMOLOGY Journal of Ophthalmic & Vision Research Pub Date : 2023-01-01 DOI:10.18502/jovr.v18i1.12723

Mohammad-Reza Jafarinasab, Behrooz Khosravi, Hamed Esfandiari, Sadid Hooshmandi, Kiana Hassanpour

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Abstract

Purpose: To investigate and optimize the accuracy of aphakic refraction (AR) techniques for secondary intraocular lens (IOL) power calculation in aphakic children.

Methods: Thirty-three aphakic eyes of 18 patients who were candidates for secondary IOL implantation were enrolled in the present study. Axial length (AL) measured by optical biometry was used in the biometric formula (SRK-T, Holladay II, and Hoffer-Q). AR and spherical equivalent (SE) were used in two AR-based formulas (Ianchulev, Leccissotti). True power was calculated based on postoperative SE at three months' follow-up.

Results: Regarding the postoperative SE, 13 (40%) eyes were within $\pm$ 1.00 diopters (D) and 22 (66%) were within $\pm$ 2.00 D. Median absolute error (MedAE) was predicted to be 4.4 and 7.3 D with the use of Ianchulev and Leccissotti formulas, respectively. The corresponding value was 0.8 D with the biometric formula. All eyes were deemed to have myopic refraction when using the AR-based formulas except one eye with the Ianchulev formula. The coefficient of our modified formula was 1.7 instead of 2.01 in the Ianchulev formula. MedAE with the use of new formulae was 0.5 D and was comparable with the true IOL power (P = 0.22).

Conclusion: Both Ianchulev and Leccissotti formulas resulted in a significant myopic surprise in aphakic children aged between 4.5 and 14 years. The modified formula proved to determine a more accurate SE that is comparable with biometric formulas.

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基于儿童无晶状体屈光的人工晶状体度数计算改进公式。

目的:探讨并优化无晶状体屈光度(AR)技术在无晶状体儿童人工晶状体度数计算中的准确性。方法:选取18例无晶状体患者33只眼进行二期人工晶状体植入术。生物识别公式(SRK-T、Holladay II和Hoffer-Q)采用光学生物测定法测量的轴向长度(AL)。两个基于AR的公式(Ianchulev, Leccissotti)采用了AR和球面等效(SE)。根据术后随访3个月的SE计算真功率。结果:术后SE在±1.00屈光度(D)以内的有13只(40%)眼，±2.00屈光度(D)以内的有22只(66%)眼。使用Ianchulev和Leccissotti公式预测的中位绝对误差(MedAE)分别为4.4和7.3 D。用生物识别公式计算对应值为0.8 D。使用基于ar的公式时，除了一只眼睛使用Ianchulev公式外，所有眼睛都被认为是近视屈光。我们修正公式的系数是1.7，而不是Ianchulev公式中的2.01。使用新配方后的人工晶内光度值为0.5 D，与人工晶内真度数相当(P = 0.22)。结论:Ianchulev配方和Leccissotti配方对4.5 ~ 14岁的无晶状体失聪儿童均有显著的近视奇效。经证明，改进后的公式可以确定与生物识别公式相当的更准确的SE。

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