MACHINE LEARNING AND ARTIFICIAL NEURAL NETWORK TECHNOLOGIES IN THE CLASSIFICATION OF POSTKERATOTOMIC CORNEAL DEFORMITY

E. K. Tsyrenzhapova, O. Rozanova, T. Iureva, Andrey A. Ivanov, Ivan S. Rozanov
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Abstract

Backgraund: A thorough analysis of both the optical and anatomical properties of the cornea in patients after anterior radial keratotomy is of particular importance in choosing the optical strength of an intraocular lens in the surgical treatment of cataracts and other types of optical correction. The variability of the clinical picture of postkeratotomic deformity (PCRD) determines the need to develop its classification and is an important task of modern ophthalmology. Aims: to develop an automated system of classification of corneal PCRD using machine learning and an artificial neural network based on the analysis of topographic maps of the cornea. Materials and methods: depersonalized results of the analysis of medical records of 250 patients aged 59.63±5.95 (from 46 to 76) years were used as the material. The analysis of 500 maps of the relief-topography of the anterior and posterior surfaces of the cornea and 3 stages of machine learning of the PCRD classification were carried out. Results: Stage 1- analysis of the relief topography of the anterior and posterior surfaces of the cornea allowed us to fix the numerical values of the elevation of the anterior and posterior surfaces of the cornea in three ring-shaped zones. At stage 2, in the course of deep machine learning, a direct distribution neural network was selected and created. 8 auxiliary parameters describing the shape of the anterior and posterior surfaces of the cornea were established. Stage 3 was accompanied by obtaining algorithms for the classification of PCRD depending on the ratio of test and training samples, which ranged from 75 to 91%.. Conclusion: The use of artificial neural network algorithms can become a useful tool for automatic classification of postkeratotomic corneal deformity in patients who have previously undergone radial keratotomy.
机器学习和人工神经网络技术在角膜后畸形分类中的应用
后角膜在白内障手术治疗和其他类型的光学矫正中,对前放射状角膜切开术后患者角膜的光学和解剖特性进行全面分析,对于选择眼内晶状体的光学强度尤为重要。角膜切开后畸形(PCRD)临床表现的多变性决定了有必要对其进行分类,这也是现代眼科的一项重要任务。目的:在分析角膜地形图的基础上,利用机器学习和人工神经网络开发角膜 PCRD 自动分类系统。材料和方法:以 250 名年龄在 59.63±5.95(46 至 76)岁之间的患者的病历分析结果为材料。对 500 张角膜前后表面的浮雕地形图进行了分析,并对 PCRD 分类进行了 3 个阶段的机器学习。结果第一阶段--分析角膜前后表面的浮雕地形图,我们确定了角膜前后表面在三个环形区域的高程数值。在第二阶段,在深度机器学习过程中,我们选择并创建了一个直接分布神经网络。建立了 8 个描述角膜前后表面形状的辅助参数。在第 3 阶段,根据测试样本和训练样本的比例(从 75% 到 91%),获得了 PCRD 的分类算法。结论使用人工神经网络算法可以成为对曾接受过放射状角膜切开术的患者进行角膜切开术后角膜畸形自动分类的有用工具。
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来源期刊
CiteScore
1.30
自引率
0.00%
发文量
44
审稿时长
5 weeks
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