人工智能在圆锥角膜诊断和手术中的应用综述

B. Malyugin, S. Sakhnov, L. Axenova, V. Myasnikova
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引用次数: 0

摘要

介绍。人工智能是建模和扩展人类智能的新的理论途径、方法、技术和应用系统。在眼科,人工智能是通过更准确的诊断、寻找新的疾病生物标志物、决策过程的自动化以及在医生日常活动的其他方面提供帮助来提高治疗过程效率的工具之一。本文综述了人工智能在圆锥角膜的诊断和手术方面的最新进展。材料和方法。用于文献检索的数据库包括:Google和Google Scholar、PubMed、Embase、MEDLINE和Web of Science。结果。通过对所有选定数据库的搜索以及相关研究的选择,分析了75篇文章。选择全文分析的大多数研究都是诊断算法的发展。最常用的经典机器学习方法是支持向量机方法和随机森林方法。最常用的神经网络类型是卷积神经网络。75项研究中有4项报告了在临床环境中使用所开发算法的图形界面的创建。结论。所分析的研究中得到的算法的准确率基本在90%以上。它表明了机器学习模型解决复杂临床问题的能力。关键词:人工智能,机器学习,圆锥角膜,诊断
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Application of artificial intelligence in diagnostics and surgery of keratoconus: a systematic overview
Introduction. Artificial Intelligence is new theoretical approaches, methods, technologies and applied systems for modeling and extending human intelligence. In ophthalmology, artificial intelligence is one of the tools that help improve the efficiency of the treatment process through more accurate diagnostics, search for new biomarkers of diseases, automation of decision-making processes and assistance in other aspects of the physician‘s daily activities. The purpose of this review is to describe the currently available developments for the diagnosis and surgery of keratoconus in the field of artificial intelligence. Material and methods. Databases that were used for literature search included: Google and Google Scholar, PubMed, Embase, MEDLINE and Web of Science. Results. As a result of a search across all selected databases, as well as a selection of relevant studies, 75 articles were analyzed. Most of the studies that were selected for full-text analysis were the development of diagnostic algorithms. The most common classical machine learning methods were support vector machines method and random forest method. The most commonly used type of neural network is the convolutional neural network. 4 studies out of 75 reported the creation of a graphical interface for using the developed algorithm in a clinical environment. Conclusion. The accuracy of the algorithms that were obtained in the analyzed researches was basically more than 90%. It indicates the ability of machine learning models to solve complex clinical problems. Key words: artificial intelligence, machine learning, keratoconus, diagnostics
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