儿童屈光不正数据分类中非散瞳与散瞳自动验光的比较。

Comparison of noncycloplegic and cycloplegic autorefraction in categorizing refractive error data in children.

作者信息

Sankaridurg Padmaja, He Xiangui, Naduvilath Thomas, Lv Minzhi, Ho Arthur, Smith Earl, Erickson Paul, Zhu Jianfeng, Zou Haidong, Xu Xun

机构信息

Brien Holden Vision Institute, Sydney, New South Wales, Australia.

School of Optometry and Vision Science, University of New South Wales, Sydney, New South Wales, Australia.

出版信息

Acta Ophthalmol. 2017 Nov;95(7):e633-e640. doi: 10.1111/aos.13569.

DOI:10.1111/aos.13569

PMID:29110438

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5698763/

Abstract

PURPOSE

To systematically analyse the differences between cycloplegic and noncycloplegic refractive errors (RE) in children and to determine if the predictive value of noncycloplegic RE in categorizing RE can be improved.

METHODS

Random cluster sampling was used to select 6825 children aged 4-15 years. Autorefraction was performed under both noncycloplegic and cycloplegic (induced with 1% cyclopentolate drops) conditions. Paired differences between noncycloplegic and cycloplegic spherical equivalent (SE) RE were determined. A general linear model was developed to determine whether cycloplegic SE can be predicted using noncycloplegic SE, age and uncorrected visual acuity (UCVA).

RESULTS

Compared to cycloplegia, noncycloplegia resulted in a more myopic SE (paired difference: -0.63 ± 0.65D, 95% CI: -0.612 to -0.65D, 6017 eligible right eyes) with greater differences observed in younger participants and in eyes with more hyperopic RE and smaller AL. Using raw noncycloplegic data resulted in only 61% of the eyes being correctly classified as myopic, emmetropic or hyperopic. Using age and uncorrected VA in the model, the association improved and 77% of the eyes were classified correctly. However, predicted cycloplegic SE continued to show large residual errors for low myopic to hyperopic RE. Applying the model to only those eyes with uncorrected VA <6/6 resulted in an improvement (R = 0. 93), with 80% of the eyes correctly classified. A higher VA cut-off (i.e., ≤6/18) resulted in 97.5% of eyes classified correctly.

CONCLUSION

Noncycloplegic assessment of RE in children overestimates myopia and results in a high error rate for emmetropic and hyperopic RE. Adjusting for age and applying uncorrected VA cut-offs to noncycloplegic assessments improves detection of myopic RE and may help in identifying myopic RE in situations where cycloplegia is not available but does not help in identifying the magnitude of refractive error and therefore is of limited value.

摘要

目的

系统分析儿童睫状肌麻痹验光与非睫状肌麻痹验光的屈光不正（RE）差异，并确定能否提高非睫状肌麻痹验光在屈光不正分类中的预测价值。

方法

采用随机整群抽样法选取6825名4至15岁儿童。在非睫状肌麻痹和睫状肌麻痹（用1%环喷托酯滴眼液诱导）条件下进行自动验光。确定非睫状肌麻痹验光与睫状肌麻痹验光等效球镜（SE）屈光不正的配对差异。建立一般线性模型，以确定是否可以使用非睫状肌麻痹验光的SE、年龄和未矫正视力（UCVA）来预测睫状肌麻痹验光的SE。

结果

与睫状肌麻痹验光相比，非睫状肌麻痹验光导致SE更近视（配对差异：-0.63±0.65D，95%CI：-0.612至-0.65D，6017只合格右眼），在年轻参与者以及屈光不正更远视和眼轴较短的眼中差异更大。使用原始非睫状肌麻痹验光数据时，只有61%的眼睛能被正确分类为近视、正视或远视。在模型中纳入年龄和未矫正视力后，分类准确性提高，77%的眼睛被正确分类。然而，对于低度近视到远视的屈光不正，预测的睫状肌麻痹验光SE仍显示出较大的残余误差。仅将该模型应用于未矫正视力<6/6的眼睛时，准确性有所提高（R=0.93），80%的眼睛被正确分类。更高的视力截断值（即≤6/18）可使97.5%的眼睛被正确分类。

结论

儿童非睫状肌麻痹验光会高估近视程度，导致正视和远视屈光不正的错误率较高。在非睫状肌麻痹验光评估中，调整年龄并应用未矫正视力截断值可提高近视屈光不正的检测率，可能有助于在无法进行睫状肌麻痹验光的情况下识别近视屈光不正，但无助于确定屈光不正的度数，因此价值有限。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/876c/5698763/e9b3844f9169/AOS-95-e633-g001.jpg

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儿童屈光不正数据分类中非散瞳与散瞳自动验光的比较。

Comparison of noncycloplegic and cycloplegic autorefraction in categorizing refractive error data in children.

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