基于多变量分析的激光周边虹膜切开术后 IOL 功率的变化。

IF 1.7 4区医学 Q3 OPHTHALMOLOGY

BMC Ophthalmology Pub Date : 2024-10-14 DOI:10.1186/s12886-024-03699-w

Xinyu Wang, Shasha Xue, Zhiying Yu, Fenglei Wang, Licun Wang, Yunxiao Wang, Ling Wang

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Pearson's linear correlation analysis was used to ascertain the relationship between IOL power changes and ocular parameter changes to establish mathematical models.Results: No significant difference was found in calculated IOL power changes before and after LPI in each group. There was significant difference in the number of cases with IOL change values greater than 0.5D between the primary angle closure glaucoma (PACG) and the other two groups for each formula. IOL power changes were mainly associated with △K and △AL. 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引用次数: 0

摘要

研究背景本研究旨在探讨激光周边虹膜切开术（LPI）对原发性闭角型青光眼（PACD）患者眼内晶状体（IOL）功率的影响，并构建数学模型以评估IOL功率的变化：方法：本研究纳入了 58 位 PACD 患者。使用 IOL Master700 分析和比较 LPI 前后每个公式中 IOL 功率和眼部相关参数的变化。统计每组 IOL 功率变化大于 0.5 屈光度 (D) 的病例数，并使用费雪精确检验分析显著差异。采用皮尔逊线性相关分析确定 IOL 功率变化与眼参数变化之间的关系，以建立数学模型：结果：各组人工晶体植入术前后计算的人工晶体力量变化无明显差异。原发性闭角型青光眼（PACG）和其他两组在每个公式中人工晶体变化值大于 0.5D 的病例数有明显差异。IOL 功率变化主要与△K 和△AL 有关。根据线性回归分析建立了 LPI 后 IOL 功率变化的数学模型（PAC 组：△IOLHaigis=0.026-2.950×△AL-1.414×△KK，△IOLHoffer Q=-3.578×△AL-1.412×△KK，△IOLSRK/T=-3.152×△AL-1.114×△KK，△IOLHolladay 1=-3.405×△AL-1.291×△KK，△IOLHolladay 2=-3.467×△AL-1.483×△KK，△IOLBUII=-3.185×△AL-1.301×△KK；PACG组：△IOLHaigis=-1.632×△KK，△IOLHoffer Q=-3.770×△AL-1.434×△KK，△IOLSRK/T=-3.427×△AL-1.102×△K，△IOLHolladay 1=-3.625×△AL-1.278×△K，△IOLHolladay 2=-4.764×△AL-1.272×△K，△IOLBUII=-4.935×△AL-1.304×△K）.结论：结论：LPI 会导致 PACD 患者的一些眼部参数发生变化，在 PACG 患者中观察到对 IOL 功率计算的巨大影响。基于多变量分析的数学模型有望预测 LPI 后 IOL 功率的变化。

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Changes in IOL power after laser peripheral iridotomy based on multivariate analysis.

Background: This study aimed to investigate the effect of laser peripheral iridotomy (LPI) on intraocular lens (IOL) power in patients with primary angle closure disease (PACD), and to construct mathematical models to assess changes in IOL power.

Methods: This study included 58 eyes of PACD patients. IOL Master700 was used to analyze and compare the changes of IOL power and ocular related parameters in each formula before and after LPI. The number of cases with IOL power changes greater than 0.5 diopters (D) in each group were counted and significant differences were analyzed using Fisher's exact test. Pearson's linear correlation analysis was used to ascertain the relationship between IOL power changes and ocular parameter changes to establish mathematical models.

Results: No significant difference was found in calculated IOL power changes before and after LPI in each group. There was significant difference in the number of cases with IOL change values greater than 0.5D between the primary angle closure glaucoma (PACG) and the other two groups for each formula. IOL power changes were mainly associated with △K and △AL. Mathematical models of IOL power changes after LPI were constructed based on linear regression analysis.(PAC group: △IOL_Haigis=0.026-2.950×△AL-1.414×△K, △IOL_{Hoffer Q}=-3.578×△AL-1.412×△K, △IOL_SRK/T=-3.152×△AL-1.114×△K, △IOL_{Holladay 1}=-3.405×△AL-1.291×△K, △IOL_{Holladay 2}=-3.467×△AL-1.483×△K, △IOL_BUII=-3.185×△AL-1.301×△K; PACG group:△IOL_Haigis=-1.632×△K, △IOL_{Hoffer Q}=-3.770×△AL-1.434×△K, △IOL_SRK/T=-3.427×△AL-1.102×△K, △IOL_{Holladay 1}=-3.625×△AL-1.278×△K, △IOL_{Holladay 2}=-4.764×△AL-1.272×△K, △IOL_BUII=-4.935×△AL-1.304×△K).

Conclusions: LPI will cause changes in some ocular parameters in patients with PACD, with great effects on IOL power calculations was observed in patients with PACG. Mathematical models based on multivariate analysis hold promise for predicting IOL power changes subsequent to LPI.

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来源期刊

BMC Ophthalmology OPHTHALMOLOGY-

CiteScore

3.40

自引率

5.00%

发文量

441

审稿时长

6-12 weeks

期刊介绍： BMC Ophthalmology is an open access, peer-reviewed journal that considers articles on all aspects of the prevention, diagnosis and management of eye disorders, as well as related molecular genetics, pathophysiology, and epidemiology.