阿尔茨海默病中可解释机器学习的横断面研究：使用磁共振成像放射组学特征进行诊断分类

A cross-sectional study of explainable machine learning in Alzheimer's disease: diagnostic classification using MR radiomic features.

作者信息

Leandrou Stephanos, Lamnisos Demetris, Bougias Haralabos, Stogiannos Nikolaos, Georgiadou Eleni, Achilleos K G, Pattichis Constantinos S

机构信息

School of Sciences, European University Cyprus, Nicosia, Cyprus.

University Hospital of Ioannina, Ioannina, Greece.

出版信息

Front Aging Neurosci. 2023 Jun 7;15:1149871. doi: 10.3389/fnagi.2023.1149871. eCollection 2023.

DOI:10.3389/fnagi.2023.1149871

PMID:37358951

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10285704/

Abstract

INTRODUCTION

Alzheimer's disease (AD) even nowadays remains a complex neurodegenerative disease and its diagnosis relies mainly on cognitive tests which have many limitations. On the other hand, qualitative imaging will not provide an early diagnosis because the radiologist will perceive brain atrophy on a late disease stage. Therefore, the main objective of this study is to investigate the necessity of quantitative imaging in the assessment of AD by using machine learning (ML) methods. Nowadays, ML methods are used to address high dimensional data, integrate data from different sources, model the etiological and clinical heterogeneity, and discover new biomarkers in the assessment of AD.

METHODS

In this study radiomic features from both entorhinal cortex and hippocampus were extracted from 194 normal controls (NC), 284 mild cognitive impairment (MCI) and 130 AD subjects. Texture analysis evaluates statistical properties of the image intensities which might represent changes in MRI image pixel intensity due to the pathophysiology of a disease. Therefore, this quantitative method could detect smaller-scale changes of neurodegeneration. Then the radiomics signatures extracted by texture analysis and baseline neuropsychological scales, were used to build an XGBoost integrated model which has been trained and integrated.

RESULTS

The model was explained by using the Shapley values produced by the SHAP (SHapley Additive exPlanations) method. XGBoost produced a f1-score of 0.949, 0.818, and 0.810 between NC vs. AD, MC vs. MCI, and MCI vs. AD, respectively.

DISCUSSION

These directions have the potential to help to the earlier diagnosis and to a better manage of the disease progression and therefore, develop novel treatment strategies. This study clearly showed the importance of explainable ML approach in the assessment of AD.

摘要

引言

即使在当今，阿尔茨海默病（AD）仍然是一种复杂的神经退行性疾病，其诊断主要依赖于认知测试，而这些测试存在许多局限性。另一方面，定性成像无法提供早期诊断，因为放射科医生只能在疾病晚期才察觉到脑萎缩。因此，本研究的主要目的是通过机器学习（ML）方法研究定量成像在AD评估中的必要性。如今，ML方法被用于处理高维数据、整合来自不同来源的数据、对病因和临床异质性进行建模，以及在AD评估中发现新的生物标志物。

方法

在本研究中，从194名正常对照（NC）、284名轻度认知障碍（MCI）和130名AD受试者中提取了内嗅皮质和海马体的放射组学特征。纹理分析评估图像强度的统计特性，这些特性可能代表由于疾病的病理生理学导致的MRI图像像素强度变化。因此，这种定量方法可以检测到神经退行性变的较小尺度变化。然后，通过纹理分析提取的放射组学特征和基线神经心理学量表被用于构建一个经过训练和整合的XGBoost集成模型。

结果

使用SHAP（Shapley值加法解释）方法产生的Shapley值对模型进行了解释。XGBoost在NC与AD、MC与MCI、MCI与AD之间产生的F1分数分别为0.949、0.818和0.810。

讨论

这些方向有可能有助于早期诊断和更好地管理疾病进展，从而制定新的治疗策略。这项研究清楚地表明了可解释的ML方法在AD评估中的重要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/eb95/10285704/db633bd5e369/fnagi-15-1149871-g001.jpg

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阿尔茨海默病中可解释机器学习的横断面研究：使用磁共振成像放射组学特征进行诊断分类

A cross-sectional study of explainable machine learning in Alzheimer's disease: diagnostic classification using MR radiomic features.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

DISCUSSION

引言

方法

结果

讨论

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