近视激光屈光手术后角膜曲率半径误差对角膜屈光力测量的影响。
Effects of error in radius of curvature on the corneal power measurement before and after laser refractive surgery for myopia.
机构信息
Institute of Modern Optics, Key Laboratory of Optical Information Science and Technology, Ministry of Education, Nankai University, Tianjin, China.
出版信息
Ophthalmic Physiol Opt. 2012 Jul;32(4):355-61. doi: 10.1111/j.1475-1313.2012.00921.x.
PURPOSE
To investigate the sources of error in corneal power measurement before and after corneal refractive surgery for myopia.
METHODS
The study comprised 28 eyes of six males and eight females with a mean age of 26 (range 18-39 years). The radius of curvature of anterior and posterior corneal surface, Q-Values of anterior and posterior corneal surface and corneal central thickness were measured by rotating Scheimpflug imaging (Pentacam). The true net power F(g), back vertex power F(v), and keratometric power SimK, were calculated respectively at the apex and at a paracentral area on the 3 mm ring.
RESULTS
For virgin eyes, the overestimation (0.53 ± 0.11 D) of the corneal power by using a keratometric index of 1.3375 was balanced by the underestimation (-0.21 ± 0.09 D) of the corneal power by the error in the radius of curvature, resulting in a relatively small corneal power error with a mean value of 0.33 ± 0.11 D. With the Q-value changing from -0.09 to -0.41, the percentage balanced by the error in radius of curvature increased from 16% to 73%. However, for eyes after laser refractive surgery, the radius of curvature error lead to an overestimation (0.54 ± 0.16 D) of the corneal power and the keratometric index of 1.3375 again overestimated (1.59 ± 0.26 D) the corneal power, resulting in a large measurement error with a mean value of 2.12 ± 0.40 D. With the Q-value changing from 0.35 to 1.89, the percentage added by the error in radius of curvature increased from 14% to 32%.
CONCLUSIONS
For virgin eyes, the overestimation of the corneal power by using a keratometric index of 1.3375 is balanced by the underestimation of the corneal power by the error in the radius of curvature, resulting in a relatively small corneal power error. However, for eyes after laser refractive surgery, the flatter anterior corneal surface means that the use of a keratometric index of 1.3375 significantly overestimates the corneal power and the radius of curvature error now adds to this overestimation and results in a large measurement error.
目的
研究近视患者角膜屈光手术后角膜屈光力测量的误差来源。
方法
本研究共纳入 6 名男性和 8 名女性的 28 只眼,平均年龄 26 岁(18-39 岁)。采用旋转式 Scheimpflug 成像(Pentacam)测量前、后角膜表面曲率半径、前、后角膜表面 Q 值和角膜中央厚度。在角膜顶点和 3mm 环的旁中心区域分别计算真实净力 F(g)、后顶点力 F(v)和角膜曲率计力 SimK。
结果
对于正常眼,使用角膜曲率计指数 1.3375 时角膜屈光力的高估(0.53±0.11 D)与曲率半径误差引起的角膜屈光力的低估(-0.21±0.09 D)相平衡,导致角膜屈光力误差较小,平均值为 0.33±0.11 D。当 Q 值从-0.09 变为-0.41 时,由曲率半径误差平衡的百分比从 16%增加到 73%。然而,对于激光屈光手术后的眼睛,曲率半径误差导致角膜屈光力高估(0.54±0.16 D),并且角膜曲率计指数 1.3375 再次高估(1.59±0.26 D)角膜屈光力,导致较大的测量误差,平均值为 2.12±0.40 D。当 Q 值从 0.35 变为 1.89 时,由曲率半径误差引起的附加百分比从 14%增加到 32%。
结论
对于正常眼,使用角膜曲率计指数 1.3375 时角膜屈光力的高估与曲率半径误差引起的角膜屈光力的低估相平衡,导致角膜屈光力误差较小。然而,对于激光屈光手术后的眼睛,平坦的前角膜表面意味着使用角膜曲率计指数 1.3375 会显著高估角膜屈光力,而曲率半径误差现在会增加这种高估,导致较大的测量误差。
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