Machine learning approach for Migraine Aura Complexity Score prediction based on magnetic resonance imaging data

Katarina Mitrović, Andrej M. Savić, Aleksandra Radojičić, Marko Daković, Igor Petrušić
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Abstract

Previous studies have developed the Migraine Aura Complexity Score (MACS) system. MACS shows great potential in studying the complexity of migraine with aura (MwA) pathophysiology especially when implemented in neuroimaging studies. The use of sophisticated machine learning (ML) algorithms, together with deep profiling of MwA, could bring new knowledge in this field. We aimed to test several ML algorithms to study the potential of structural cortical features for predicting the MACS and therefore gain a better insight into MwA pathophysiology. The data set used in this research consists of 340 MRI features collected from 40 MwA patients. Average MACS score was obtained for each subject. Feature selection for ML models was performed using several approaches, including a correlation test and a wrapper feature selection methodology. Regression was performed with the Support Vector Machine (SVM), Linear Regression, and Radial Basis Function network. SVM achieved a 0.89 coefficient of determination score with a wrapper feature selection. The results suggest a set of cortical features, located mostly in the parietal and temporal lobes, that show changes in MwA patients depending on aura complexity. The SVM algorithm demonstrated the best potential in average MACS prediction when using a wrapper feature selection methodology. The proposed method achieved promising results in determining MwA complexity, which can provide a basis for future MwA studies and the development of MwA diagnosis and treatment.
基于磁共振成像数据的偏头痛先兆复杂性评分预测机器学习方法
以往的研究已开发出偏头痛先兆复杂性评分(MACS)系统。MACS在研究先兆性偏头痛(MwA)病理生理学的复杂性方面显示出巨大的潜力,尤其是在神经影像学研究中应用时。使用复杂的机器学习(ML)算法,再加上对 MwA 的深入剖析,可为这一领域带来新的知识。我们的目的是测试几种 ML 算法,研究皮层结构特征预测 MACS 的潜力,从而更好地了解 MwA 的病理生理学。本研究使用的数据集包括从 40 名 MwA 患者身上收集的 340 个 MRI 特征。每个受试者都获得了 MACS 平均得分。使用多种方法为 ML 模型选择特征,包括相关性测试和包装特征选择方法。使用支持向量机 (SVM)、线性回归和径向基函数网络进行回归。使用包装特征选择法,SVM 的决定系数达到了 0.89。结果表明,一组主要位于顶叶和颞叶的皮层特征在 MwA 患者中会根据先兆复杂性而发生变化。在使用包装特征选择方法时,SVM 算法在平均 MACS 预测方面表现出最佳潜力。所提出的方法在确定 MwA 复杂性方面取得了可喜的成果,可为今后的 MwA 研究以及 MwA 诊断和治疗的发展提供依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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