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散光型人工晶状体在白内障和屈光手术中的准确性。

Accuracy of toric intraocular lens implantation in cataract and refractive surgery.

机构信息

University Eye Clinic, Maastricht University Medical Centre, Maastricht, The Netherlands.

出版信息

J Cataract Refract Surg. 2011 Aug;37(8):1394-402. doi: 10.1016/j.jcrs.2011.02.024.

DOI:10.1016/j.jcrs.2011.02.024
PMID:21782085
Abstract

PURPOSE

To determine the accuracy of a commonly used 3-step procedure for toric pseudophakic and phakic intraocular lens (IOL) implantation.

SETTING

University Eye Clinic, Maastricht University Medical Centre, Maastricht, The Netherlands.

DESIGN

Cohort study.

METHOD

In this analysis of toric IOL implantation, 6 preoperative images of the eye per patient and the surgery video were obtained using a digital imaging system. All 3 steps for toric IOL implantation were analyzed as follows: reference axis marking, alignment axis marking, and IOL alignment. In addition, vector analysis was used to calculate the errors in toric IOL alignment.

RESULTS

Forty eyes (26 pseudophakic, 14 phakic) were analyzed. The mean errors in reference axis marking, alignment axis marking, and toric IOL alignment were 2.4 degrees ± 0.8 (SD), 3.3 ± 2.0 degrees, and 2.6 ± 2.6 degrees, respectively. Together, these 3 errors led to a mean total error in toric IOL alignment of 4.9 ± 2.1 degrees. Subgroup analysis showed no significant difference in mean error between pseudophakic IOL and phakic toric IOL alignment (P=.501). Vector analysis showed a mean angle or error of -2 ± 8 degrees (pseudophakic IOLs) and 6 ± 14 degrees (phakic IOLs).

CONCLUSIONS

A commonly used 3-step ink-marker procedure to implant toric IOLs led to a mean error in IOL placement of approximately 5 degrees. The error was especially relevant in cases in which higher cylinder power IOLs were implanted. Orienting the toric IOL with great accuracy is necessary in all patients to achieve the best cylinder correction.

摘要

目的

确定一种常用于散光型人工晶状体(IOL)植入的三步法的准确性。

地点

荷兰马斯特里赫特大学医学中心大学眼科诊所。

设计

队列研究。

方法

在这项散光 IOL 植入分析中,每例患者获得 6 张术前眼部图像和手术视频,使用数字成像系统。对以下三个步骤的散光 IOL 植入进行了分析:参考轴标记、校准轴标记和 IOL 校准。此外,还使用向量分析来计算散光 IOL 校准的误差。

结果

分析了 40 只眼(26 例白内障术后,14 例晶状体保留)。参考轴标记、校准轴标记和散光 IOL 校准的平均误差分别为 2.4 度±0.8(标准差)、3.3 度±2.0 度和 2.6 度±2.6 度。这三个误差的总和导致散光 IOL 校准的平均总误差为 4.9 度±2.1 度。亚组分析显示,白内障术后 IOL 和晶状体保留散光 IOL 校准的平均误差无显著差异(P=0.501)。向量分析显示平均角度或误差为-2 度±8 度(白内障术后 IOL)和 6 度±14 度(晶状体保留 IOL)。

结论

一种常用的三步印墨标记程序引导散光 IOL 植入,导致 IOL 位置的平均误差约为 5 度。在植入更高的圆柱镜度数 IOL 的情况下,误差尤其相关。为了获得最佳的圆柱镜矫正效果,所有患者都需要非常精确地定位散光 IOL。

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