放射状角膜切开术后白内障手术中的人工晶状体度数计算方法。
Methods for Intraocular Lens Power Calculation in Cataract Surgery after Radial Keratotomy.
机构信息
Sir Charles Gairdner Hospital, Perth, WA, Australia; Lions Eye Institute, Perth, WA, Australia; Royal Bournemouth Hospital, Bournemouth, United Kingdom.
Lions Eye Institute, Perth, WA, Australia; Centre for Ophthalmology and Visual Science, University of Western Australia, WA, Australia.
出版信息
Ophthalmology. 2020 Jan;127(1):45-51. doi: 10.1016/j.ophtha.2019.08.019. Epub 2019 Aug 23.
PURPOSE
To compare methods of calculating the required intraocular lens (IOL) power for patients undergoing cataract surgery after radial keratotomy (RK), including the 2016 update of the True K formula.
DESIGN
Retrospective case series.
PARTICIPANTS
A total of 52 eyes of 34 patients who had sequential RK and cataract surgery performed in the same institution by 1 of 2 surgeons.
METHODS
Seven IOL calculation formulae were evaluated: True K [History], True K [Partial History], True K [No History], Double-K Holladay 1 (DK-Holladay-IOLM), Potvin-Hill, Haigis, and Haigis with a -0.50 diopter (D) offset. Biometry was obtained with the IOLMaster 500 (Carl Zeiss Meditec AG, Jena, Germany) and Pentacam (OCULUS Inc, Arlington, WA) devices. Subjective refraction was performed at 4 to 6 weeks postoperatively. The achieved spherical equivalent outcome was compared with the target outcome to calculate the absolute error for each eye with each formula.
MAIN OUTCOME MEASURES
Median absolute error (MedAE) and mean absolute error (MAE), and percentage of patients within ±0.50 D, ±0.75 D, and ±1.00 D of refractive target. Mean error (ME) was also calculated to demonstrate whether a formula tended toward more myopic or hyperopic outcomes.
RESULTS
Best results were achieved with the True K [History]. The MedAE was higher (0.382 vs. 0.275) with the True K [Partial History], but a similar percentage of patients (75.0%-76.6%) achieved within ±0.50 D of target. Of the methods that do not require refractive history, the True K [No History] and unadjusted Haigis were most accurate (69.2% within ±0.50 D of target), with the True K [No History] returning the lowest MedAE but also more of a tendency toward hyperopia (ME +0.269 vs. -0.006 for Haigis). The DK-Holladay-IOLM and Potvin-Hill methods were the least accurate.
CONCLUSIONS
Knowledge of the refractive history significantly improves the accuracy of IOL calculations in patients undergoing cataract surgery after previous RK. The post-RK refraction appears to be the most important parameter, with inclusion of the pre-RK refraction offering a further slight improvement in MedAE. When no refractive history is available, the True K [No History] and Haigis formulae both perform well, with the added advantage of not requiring data from separate biometric devices.
目的
比较计算行放射状角膜切开(RK)术后白内障手术患者所需人工晶状体(IOL)度数的方法,包括 2016 年 True K 公式的更新。
设计
回顾性病例系列。
参与者
共有 34 名患者的 52 只眼,这些患者在同一机构由 2 名外科医生中的 1 名进行了连续的 RK 和白内障手术。
方法
评估了 7 种 IOL 计算公式:True K [History]、True K [Partial History]、True K [No History]、Double-K Holladay 1(DK-Holladay-IOLM)、Potvin-Hill、Haigis 和 Haigis 加-0.50 屈光度(D)偏移。使用 IOLMaster 500(卡尔蔡司 Meditec AG,耶拿,德国)和 Pentacam(OCULUS Inc,阿灵顿,WA)设备进行生物测量。术后 4 至 6 周进行主观验光。比较每个公式的实际球镜等效结果与目标结果,计算每个眼睛的绝对误差。
主要观察指标
中值绝对误差(MedAE)和平均绝对误差(MAE),以及 0.50 D、0.75 D 和 1.00 D 屈光度目标内的患者百分比。还计算了平均误差(ME),以显示公式是否倾向于产生近视或远视结果。
结果
使用 True K [History] 获得最佳结果。True K [Partial History] 的 MedAE 较高(0.382 比 0.275),但有相似比例的患者(75.0%-76.6%)达到目标值的±0.50 D。在不需要屈光历史的方法中,True K [No History] 和未经调整的 Haigis 最准确(69.2%在目标值的±0.50 D 内),True K [No History] 具有最低的 MedAE,但也更倾向于远视(ME +0.269 比 Haigis -0.006)。DK-Holladay-IOLM 和 Potvin-Hill 方法最不准确。
结论
对先前接受 RK 治疗的白内障手术患者的屈光历史的了解可显著提高 IOL 计算的准确性。RK 后屈光状态似乎是最重要的参数,包括术前屈光状态可使 MedAE 进一步略有改善。当没有屈光历史时,True K [No History] 和 Haigis 公式都表现良好,并且具有不需要来自单独的生物测量设备的数据的额外优势。
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