16种新旧人工晶状体屈光度计算公式在儿童眼中的综合评估
A Comprehensive Evaluation of 16 Old and New Intraocular Lens Power Calculation Formulas in Pediatric Eyes.
作者信息
Achiron Asaf, Yahalomi Tal, Biran Amit, Levinger Eliya, Cohen Eyal, Elbaz Uri, Ali Asim, Mireskandari Kamiar, Tuuminen Raimo, Voytsekhivskyy Oleksiy V
机构信息
Tel Aviv Sourasky Medical Center, Tel Aviv, Israel and Sackler School of Medicine, Tel Aviv University, Tel Aviv, Israel.
Department of Ophthalmology, Samson Assuta Ashdod Hospital and the Faculty of Health Sciences, Ben-Gurion University of the Negev, Be'er Sheva, Israel.
出版信息
Clin Ophthalmol. 2024 Aug 8;18:2225-2238. doi: 10.2147/OPTH.S470425. eCollection 2024.
PURPOSE
To compare the accuracy of 16 intraocular lens (IOL) power calculation formulas in pediatric cataract eyes.
PATIENTS AND METHODS
The data records of pediatric patients who had been implanted with three IOL models (SA60AT, MA60AC, and enVista-MX60) between 2012 and 2018 were analyzed. The accuracy of 16 IOL power calculation methods was evaluated: Barrett Universal II (BUII), Castrop, EVO 2.0, Haigis, Hill-RBF 3.0, Hoffer Q, Hoffer QST, Holladay 1, Kane, LSF AI, Naeser 2, Pearl-DGS, SRK/T, T2, VRF, and VRF-G. The non-optimized (ULIB/IOLcon) and optimized constants were used for IOL power calculation. The mean prediction error (PE), Performance Index (FPI), and all descriptive statistics were calculated.
RESULTS
Ninety-seven eyes of 97 pediatric patients aged 13.2 (IQR 11.2-17.1) were included. No statistically significant difference (HS-test) was observed (p > 0.818) except for the Hoffer Q, and Naeser 2 (P = 0.014). With optimized lens constants, the best FPI indices were obtained by Hoffer Q (0.256) and VRF-G (0.251) formulas, followed by Hill-RBF 3.0 and BUII, with an index of 0.248. The highest FPI indices with non-optimized constants showed SRK/T and T2 formulas (0.246 and 0.245, respectively), followed by VRF-G and Holladay 1, with an index of 0.244. The best median absolute error values (MedAE) were achieved by Hoffer Q (0.50 D), VRF-G (0.53 D), and Hill-RBF 3.0 (0.54 D), all P ≥ 0.074.
CONCLUSION
Our results place the Hoffer Q, VRF-G, Hill-RBF 3.0, and BUII formulas as more accurate predictors of postoperative refraction in pediatric cataract surgery.
目的
比较16种人工晶状体(IOL)屈光力计算公式在儿童白内障眼中的准确性。
患者与方法
分析2012年至2018年间植入三种IOL型号(SA60AT、MA60AC和enVista-MX60)的儿科患者的数据记录。评估16种IOL屈光力计算方法的准确性:巴雷特通用二代(BUII)、卡斯特罗普、EVO 2.0、海吉斯、希尔-径向基函数3.0(Hill-RBF 3.0)、霍弗Q、霍弗QST、霍拉迪1、凯恩、LSF AI、内泽2、珀尔-DGS、SRK/T、T2、VRF和VRF-G。使用非优化(ULIB/IOLcon)和优化常数进行IOL屈光力计算。计算平均预测误差(PE)、性能指数(FPI)以及所有描述性统计量。
结果
纳入97例年龄为13.2岁(四分位距11.2 - 17.1)的儿科患者的97只眼。除霍弗Q和内泽2外(P = 0.014),未观察到统计学显著差异(HS检验)(p > 0.818)。使用优化的晶状体常数时,霍弗Q(0.256)和VRF-G(0.251)公式获得最佳FPI指数,其次是希尔-径向基函数3.0和BUII,指数为0.248。使用非优化常数时,最高FPI指数由SRK/T和T2公式显示(分别为0.246和0.245),其次是VRF-G和霍拉迪1,指数为0.244。霍弗Q(0.50 D)、VRF-G(0.53 D)和希尔-径向基函数3.0(0.54 D)获得最佳中位数绝对误差值(MedAE),所有P≥0.074。
结论
我们的结果表明,霍弗Q、VRF-G、希尔-径向基函数3.0和BUII公式是儿童白内障手术中术后屈光更准确的预测指标。
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