用Maklakov法测量IOP的神经网络:神经网络与专家的比较

A. A. Rascheskov, I. Frolychev, N. Pozdeyeva
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引用次数: 0

摘要

目的。目的:探讨视压神经网络在Maklakov法测定眼压及识别眼压增高患者中的临床应用价值。材料和方法。一项前瞻性研究,选择697个由Maklakov测量的IOP印象。使用神经网络对每个印象进行评估(I组),并由3名专家使用B.L. Polyak教授的测量尺(II1, II2, II3组)对专家的数据进行平均,以创建一个“比较标准”(IIM组)进行分析。结果。得到的数据以M±σ(Me [Q25%;Q75%]),其中M为平均值,±σ为标准差,Me为中位数([Q25%;Q75%])为四分位数:第一组- 22,32±4,18 (22 [20;24]);II1组:19.95±3.58 (19 [18];21]);II2组- 20、35±3、65(20±18;22]);II3组- 20、41±3、58(20±18;22]);[1] - 20,23±3,53 (19,66 [18,33;21日,66)。各数据组间差异均有统计学意义。人工智能测压精度:平均绝对误差(MAE)为2.5 mmHg,均方误差(MSE)为8.76,均方根误差(RMSE)为2.96。性能:灵敏度- 91.94%;特异性:93.7%;准确率- 58.76%;准确率- 93.54%;F1得分- 0.7170,AUC-ROC - 0.987。结论。AI-Tonometry神经网络具有较高的准确性和性能特点,结合使用服务的便利性,对Maklakov方法所产生的印象的解释速度,以及确定是否存在IOP增加的结果差异小。这项服务可以被认为是使用B.L. Polyak教授的尺子的常规方法的替代方法,可以在临床实践中使用。关键词:神经网络,眼压,人工智能,眼压测量,Maklakov压平眼压测量
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The neural network for measuring IOP by Maklakov method: comparison between neuronal net and experts
Purpose. To evaluate the possibility of clinical application of the AITonometry neural network in determining IOP by Maklakov method and identifying patients with increased intraocular pressure. Material and methods. A prospective study, 697 impressions of IOP measurement by Maklakov were selected. Each impression was evaluated using the neural network (group I), and by 3 experts with using the measuring ruler of Prof. B.L. Polyak (groups II1 , II2 , II3 ), the experts' data were averaged in order to create a «comparison standard» (group IIM ) for analysis. Results. The data obtained are presented in the form of M±σ(Me [Q25%; Q75%]), where M is the mean value, ±σ is the standard deviation, Me is the median ([Q25%; Q75%]) are quartiles: group I – 22,32±4,18 (22 [20; 24]); II1 group – 19.95±3.58 (19 [18; 21]); II2 group – 20,35±3,65 (20 [18; 22]); II3 group – 20,41±3,58 (20 [18; 22]); IIM – 20,23±3,53 (19,66 [18,33; 21,66]). A statistically significant difference was found between all data groups. The accuracy of AI-Tonometry: the mean absolute error (MAE) is 2.5 mmHg, the mean squared error (MSE) is 8.76, the root mean squared error (RMSE) is 2.96. Performance: Sensitivity – 91.94%; Specificity – 93.7%; Accuracy – 58.76%; Accuracy – 93.54%; F1 Score – 0.7170, AUC-ROC – 0.987. Conclusion. The AI-Tonometry neural network has high characteristics of accuracy and performance in combination with the convenience of using the service, the speed of interpretation of impressions made by Maklakov method, a small discrepancy in the results of determining the presence or absence of increased IOP. This service can be considered as an alternative to the usual approach with using ruler of Prof. B.L. Polyak and can be used in clinical practice. Keywords: neural network, intraocular pressure, artificial intelligence, tonometry, Maklakov applanation tonometry
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