近视激光屈光手术后人工晶状体屈光力计算方法的比较：使用旋转式Scheimpflug相机的新选择

Comparison of Intraocular Lens Power Calculation Methods Following Myopic Laser Refractive Surgery: New Options Using a Rotating Scheimpflug Camera.

作者信息

Cho Kyuyeon, Lim Dong Hui, Yang Chan Min, Chung Eui Sang, Chung Tae Young

机构信息

Department of Ophthalmology, Samsung Medical Center, Sungkyunkwan University School of Medicine, Seoul, Korea.

SNU Seoul Eye Clinic, Seoul, Korea.

出版信息

Korean J Ophthalmol. 2018 Dec;32(6):497-505. doi: 10.3341/kjo.2018.0008.

DOI:10.3341/kjo.2018.0008

PMID:30549474

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6288016/

Abstract

PURPOSE

To evaluate and compare published methods of calculating intraocular lens (IOL) power following myopic laser refractive surgery.

METHODS

We performed a retrospective review of the medical records of 69 patients (69 eyes) who had undergone myopic laser refractive surgery previously and subsequently underwent cataract surgery at Samsung Medical Center in Seoul, South Korea from January 2010 to June 2016. None of the patients had pre-refractive surgery biometric data available. The Haigis-L, Shammas, Barrett True-K (no history), Wang-Koch-Maloney, Scheimpflug total corneal refractive power (TCRP) 3 and 4 mm (SRK-T and Haigis), Scheimpflug true net power, and Scheimpflug true refractive power (TRP) 3 mm, 4 mm, and 5 mm (SRK-T and Haigis) methods were employed. IOL power required for target refraction was back-calculated using stable post-cataract surgery manifest refraction, and implanted IOL power and formula accuracy were subsequently compared among calculation methods.

RESULTS

Haigis-L, Shammas, Barrett True-K (no history), Wang-Koch-Maloney, Scheimpflug TCRP 4 mm (Haigis), Scheimpflug true net power 4 mm (Haigis), and Scheimpflug TRP 4 mm (Haigis) formulae showed high predictability, with mean arithmetic prediction errors and standard deviations of -0.25 ± 0.59, -0.05 ± 1.19, 0.00 ± 0.88, -0.26 ± 1.17, 0.00 ± 1.09, -0.71 ± 1.20, and 0.03 ± 1.25 diopters, respectively.

CONCLUSIONS

Visual outcomes within 1.0 diopter of target refraction were achieved in 85% of eyes using the calculation methods listed above. Haigis-L, Barrett True-K (no history), and Scheimpflug TCRP 4 mm (Haigis) and TRP 4 mm (Haigis) methods showed comparably low prediction errors, despite the absence of historical patient information.

摘要

目的

评估和比较已发表的近视激光屈光手术后人工晶状体（IOL）度数计算方法。

方法

我们回顾性分析了2010年1月至2016年6月在韩国首尔三星医疗中心接受过近视激光屈光手术且随后接受白内障手术的69例患者（69只眼）的病历。所有患者均无屈光手术前的生物测量数据。采用了Haigis-L、Shammas、Barrett True-K（无病史）、Wang-Koch-Maloney、Scheimpflug全角膜屈光力（TCRP）3mm和4mm（SRK-T和Haigis）、Scheimpflug真实净屈光力以及Scheimpflug真实屈光力（TRP）3mm、4mm和5mm（SRK-T和Haigis）方法。利用白内障手术后稳定的显验光回算目标屈光所需的IOL度数，随后比较各计算方法的植入IOL度数及公式准确性。

结果

Haigis-L、Shammas、Barrett True-K（无病史）、Wang-Koch-Maloney、Scheimpflug TCRP 4mm（Haigis）、Scheimpflug真实净屈光力4mm（Haigis）以及Scheimpflug TRP 4mm（Haigis）公式显示出较高的可预测性，平均算术预测误差及标准差分别为-0.25±0.59、-0.05±1.19、0.00±0.88、-0.26±1.17、0.00±1.09、-0.71±1.20和0.03±1.25屈光度。

结论

使用上述计算方法，85%的眼睛达到了目标屈光1.0屈光度以内的视觉效果。尽管缺乏患者历史信息，但Haigis-L、Barrett True-K（无病史）以及Scheimpflug TCRP 4mm（Haigis）和TRP 4mm（Haigis）方法显示出相对较低的预测误差。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3cb1/6288016/4c5a2ab1f9cc/kjo-32-497-g001.jpg

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Eye Vis (Lond). 2015 Apr 2;2:7. doi: 10.1186/s40662-015-0017-3. eCollection 2015.

Intraocular lens power calculation after myopic excimer laser surgery: Selecting the best method using available clinical data.准分子激光近视手术后的人工晶状体度数计算：利用现有临床数据选择最佳方法。

J Cataract Refract Surg. 2015 Sep;41(9):1880-8. doi: 10.1016/j.jcrs.2015.10.026.

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Ophthalmology. 2015 Dec;122(12):2443-9. doi: 10.1016/j.ophtha.2015.08.037. Epub 2015 Oct 14.

Intraocular lens prediction accuracy after corneal refractive surgery using K values from 3 devices.使用 3 种设备的 K 值预测角膜屈光手术后的人工晶状体预测准确性。

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近视激光屈光手术后人工晶状体屈光力计算方法的比较：使用旋转式Scheimpflug相机的新选择

Comparison of Intraocular Lens Power Calculation Methods Following Myopic Laser Refractive Surgery: New Options Using a Rotating Scheimpflug Camera.

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