基于前房和后房结构参数的新型房水流出通道预测公式的建立与验证。
Development and validation of a novel vault prediction formula based on structural parameters of the anterior and posterior chambers.
机构信息
Shanxi Eye Hospital Affiliated to Shanxi Medical University, Taiyuan, Shanxi, China.
Ruiz Department of Ophthalmology and Visual Science, McGovern Medical School, University of Texas Health Science Center, Houston, TX, USA.
出版信息
BMC Ophthalmol. 2024 Aug 16;24(1):349. doi: 10.1186/s12886-024-03609-0.
BACKGROUND
Accurate prediction of postoperative vault in implantable collamer lens (ICL) implantation is crucial; however, current formulas often fail to account for individual anatomical variations, leading to suboptimal visual outcomes and necessitating improved predictive models. We aimed to verify the prediction accuracy of our new predictive model for vaulting based on anterior and posterior chamber structural parameters.
METHODS
This retrospective observational study included 137 patients (240 eyes) who previously underwent ICL surgery. Patients were randomly divided into the model establishment (192 eyes) or validation (48 eyes) groups. Preoperative measurements of the anterior and posterior chamber structures were obtained using Pentacam, CASIA2 anterior segment optical coherence tomography (AS-OCT), ultrasound biomicroscopy, and other devices. Stepwise multiple linear regression analysis was used to evaluate the relationship between the vault and each variable (WL formula). The Friedman test was performed for the vaulting prediction results of the WL, NK (Ver. 3), and KS formulas (Ver. 4) in CASIA2 AS-OCT, as well as the Zhu formula and vault measurements. The proportions of prediction error within ± 250 μm per formula were compared.
RESULTS
The predicted vault values of the WL, NK, KS, and Zhu formulas and vault measurements were 668.74 ± 162.12, 650.85 ± 248.47, 546.56 ± 128.99, 486.56 ± 210.76, and 716.06 ± 233.84 μm, respectively, with a significant difference (χ = 69.883, P = 0.000). Significant differences were also found between the measured vault value and Zhu formula, measured vault value and KS formula, WL formula and Zhu formula, WL formula and KS formula, NK formula and KS formula, and NK formula and Zhu formula (P < 0.001) but not between other groups. The proportions of prediction error within ± 250 μm per formula were as follows: WL formula (81.3%) > NK formula (70.8%) > KS formula (66.7%) > Zhu formula (54.2%).
CONCLUSIONS
The WL formula, which considers the complexity of the anterior and posterior chamber structures, demonstrates greater calculation accuracy, compared with the KS (Ver. 4) and Zhu formulas. The proportion of absolute prediction error ≤ 250 μm is higher with the WL formula than with the NK formula (ver. 3). This enhanced predictive capability can improve ICL sizing decisions, thereby increasing the safety and efficacy of ICL implantation surgeries.
背景
准确预测可植入式隐形眼镜(ICL)植入术后的拱高至关重要;然而,目前的公式往往无法考虑到个体解剖结构的差异,导致术后视觉效果不理想,因此需要改进预测模型。我们旨在验证基于前房和后房结构参数的新拱高预测模型的预测准确性。
方法
这是一项回顾性观察研究,纳入了 137 名(240 只眼)先前接受 ICL 手术的患者。患者被随机分为模型建立(192 只眼)和验证(48 只眼)组。使用 Pentacam、CASIA2 眼前节光学相干断层扫描(AS-OCT)、超声生物显微镜和其他设备获得前房和后房结构的术前测量值。采用逐步多元线性回归分析评估拱高与各变量(WL 公式)之间的关系。采用 Friedman 检验比较 WL、NK(Ver.3)和 KS 公式(Ver.4)在 CASIA2 AS-OCT 中的拱高预测结果,以及 Zhu 公式和拱高测量值。比较每个公式预测误差在±250μm 内的比例。
结果
WL、NK、KS 和 Zhu 公式及拱高测量值的预测拱高值分别为 668.74±162.12μm、650.85±248.47μm、546.56±128.99μm、486.56±210.76μm 和 716.06±233.84μm,差异有统计学意义(χ²=69.883,P=0.000)。测量拱高值与 Zhu 公式、测量拱高值与 KS 公式、WL 公式与 Zhu 公式、WL 公式与 KS 公式、NK 公式与 KS 公式和 NK 公式与 Zhu 公式之间也存在显著差异(P<0.001),但其他组之间无显著差异。每个公式预测误差在±250μm 内的比例分别为:WL 公式(81.3%)>NK 公式(70.8%)>KS 公式(66.7%)>Zhu 公式(54.2%)。
结论
与 KS(Ver.4)和 Zhu 公式相比,考虑前房和后房结构复杂性的 WL 公式具有更高的计算准确性。WL 公式的绝对预测误差≤250μm 的比例高于 NK 公式(ver.3)。这种增强的预测能力可以改善 ICL 尺寸选择决策,从而提高 ICL 植入手术的安全性和有效性。
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