比较新一代人工晶状体计算公式在轴向近视眼中的准确性:一项荟萃分析。
Comparing the accuracy of the new-generation intraocular lens power calculation formulae in axial myopic eyes: a meta-analysis.
机构信息
Medical School of Chinese PLA, No. 28 Fuxing Road, Haidian District, Beijing, China.
Senior Department of Ophthalmology, The Third Medical Center of PLA General Hospital, No. 69 Yongding Road, Haidian District, Beijing, 100080, China.
出版信息
Int Ophthalmol. 2023 Feb;43(2):619-633. doi: 10.1007/s10792-022-02466-4. Epub 2022 Sep 5.
PURPOSE
To compare the accuracy of the new-generation intraocular lens power calculation formulae in axial myopic eyes.
METHODS
Four databases, PubMed, Web of Science, EMBASE and Cochrane library, were searched to select relevant studies published between Apr 11, 2011, and Apr 11, 2021. Axial myopic eyes were defined as an axial length more than 24.5 mm. There are 13 formulae to participate in the final comparison (SRK/T, Hoffer Q, Holladay I, Holladay II, Haigis for traditional formulae, Barrett Universal II, Olsen, T2, VRF, EVO, Kane, Hill-RBF, LSF for the new-generation formulae). The primary outcomes were the percentage of eyes with a refractive prediction error in ± 0.5D and ± 1.0D.
RESULTS
A total of 2273 eyes in 15 studies were enrolled in the final meta-analysis. Overall, the new-generation formulae showed a relatively more accurate outcome in comparison with traditional formulae. The percentage of eyes with a predictive refraction error in ± 0.5D (± 1.0D) of Kane, EVO and LSF was higher than 80% (95%), which was only significantly different from Hoffer Q (all P < 0.05). Moreover, another two new-generation formulae, Barrett Universal II and Olsen, had higher percentages than SRK/T, Hoffer Q, Holladay I and Haigis for eyes with predictive refraction error in ± 0.5D and ± 1.0D (all P < 0.05). In ± 0.5D group, Hill-RBF was better than SRK/T (P = 0.02), and Holladay I was better than EVO (P = 0.03) and LSF (P = 0.009), and Hoffer Q had a lower percentage than EVO, Kane, Hill-RBF and LSF (P = 0.007, 0.004, 0.002, 0.03, respectively). Barrett Universal II was better than T2 (P = 0.02), and Hill-RBF was better than SRK/T (P = 0.009). No significant difference was found in other pairwise comparison.
CONCLUSION
The new-generation formula is more accurate in intraocular lens power calculation for axial myopic eyes in comparison with the third- or fourth-generation formula.
目的
比较新一代人工晶状体计算公式在轴性近视眼中的准确性。
方法
检索 2011 年 4 月 11 日至 2021 年 4 月 11 日期间发表的相关研究,纳入数据库有 4 个,分别为 PubMed、Web of Science、EMBASE 和 Cochrane 图书馆。将眼轴大于 24.5mm 的眼定义为轴性近视眼。共有 13 个公式参与最终比较(SRK/T、Hoffer Q、Holladay I、Holladay II、传统公式的 Haigis、第三代公式的 Barrett Universal II、Olsen、T2、VRF、EVO、Kane、Hill-RBF、LSF)。主要结局指标为屈光度预测误差在±0.5D 和±1.0D 内的眼数百分比。
结果
共有 15 项研究的 2273 只眼纳入最终的荟萃分析。总体而言,新一代公式在预测结果方面比传统公式更准确。Kane、EVO 和 LSF 的预测屈光度误差在±0.5D(±1.0D)内的眼数百分比均高于 80%(95%),仅与 Hoffer Q 有显著差异(均 P<0.05)。此外,另外两种新一代公式,Barrett Universal II 和 Olsen,在预测屈光度误差在±0.5D 和±1.0D 内的眼数百分比均高于 SRK/T、Hoffer Q、Holladay I 和 Haigis(均 P<0.05)。在±0.5D 组中,Hill-RBF 优于 SRK/T(P=0.02),Holladay I 优于 EVO(P=0.03)和 LSF(P=0.009),Hoffer Q 则低于 EVO、Kane、Hill-RBF 和 LSF(P=0.007、0.004、0.002、0.03)。Barrett Universal II 优于 T2(P=0.02),Hill-RBF 优于 SRK/T(P=0.009)。其他两两比较之间无显著差异。
结论
与第三代或第四代公式相比,新一代公式在计算轴性近视眼的人工晶状体屈光度方面更准确。
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