Patterns of inflammation, microstructural alterations, and sodium accumulation define multiple sclerosis subtypes after 15 years from onset.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2023-03-23 eCollection Date: 2023-01-01 DOI:10.3389/fninf.2023.1060511
Antonio Ricciardi, Francesco Grussu, Baris Kanber, Ferran Prados, Marios C Yiannakas, Bhavana S Solanky, Frank Riemer, Xavier Golay, Wallace Brownlee, Olga Ciccarelli, Daniel C Alexander, Claudia A M Gandini Wheeler-Kingshott
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引用次数: 0

Abstract

Introduction: Conventional MRI is routinely used for the characterization of pathological changes in multiple sclerosis (MS), but due to its lack of specificity is unable to provide accurate prognoses, explain disease heterogeneity and reconcile the gap between observed clinical symptoms and radiological evidence. Quantitative MRI provides measures of physiological abnormalities, otherwise invisible to conventional MRI, that correlate with MS severity. Analyzing quantitative MRI measures through machine learning techniques has been shown to improve the understanding of the underlying disease by better delineating its alteration patterns.

Methods: In this retrospective study, a cohort of healthy controls (HC) and MS patients with different subtypes, followed up 15 years from clinically isolated syndrome (CIS), was analyzed to produce a multi-modal set of quantitative MRI features encompassing relaxometry, microstructure, sodium ion concentration, and tissue volumetry. Random forest classifiers were used to train a model able to discriminate between HC, CIS, relapsing remitting (RR) and secondary progressive (SP) MS patients based on these features and, for each classification task, to identify the relative contribution of each MRI-derived tissue property to the classification task itself.

Results and discussion: Average classification accuracy scores of 99 and 95% were obtained when discriminating HC and CIS vs. SP, respectively; 82 and 83% for HC and CIS vs. RR; 76% for RR vs. SP, and 79% for HC vs. CIS. Different patterns of alterations were observed for each classification task, offering key insights in the understanding of MS phenotypes pathophysiology: atrophy and relaxometry emerged particularly in the classification of HC and CIS vs. MS, relaxometry within lesions in RR vs. SP, sodium ion concentration in HC vs. CIS, and microstructural alterations were involved across all tasks.

炎症、微结构改变和钠积累的模式定义了发病 15 年后的多发性硬化亚型。
导言:传统的磁共振成像常规用于描述多发性硬化症(MS)的病理变化,但由于其缺乏特异性,无法提供准确的预后、解释疾病的异质性以及协调观察到的临床症状与放射学证据之间的差距。定量核磁共振成像可测量生理异常,否则常规核磁共振成像无法发现这些异常,而这些异常与多发性硬化症的严重程度相关。通过机器学习技术分析定量 MRI 测量值已被证明能更好地描述其改变模式,从而提高对潜在疾病的认识:在这项回顾性研究中,我们分析了一组健康对照组(HC)和具有不同亚型的多发性硬化症患者,这些患者从临床孤立综合征(CIS)开始随访了 15 年,从而产生了一组多模态的定量 MRI 特征,其中包括弛豫测量、微结构、钠离子浓度和组织容积测量。随机森林分类器被用来训练一个模型,该模型能够根据这些特征区分HC、CIS、复发缓解(RR)和继发性进展(SP)多发性硬化症患者,并为每个分类任务确定每个MRI衍生组织属性对分类任务本身的相对贡献:在区分HC和CIS与SP时,平均分类准确率分别为99%和95%;在区分HC和CIS与RR时,平均分类准确率分别为82%和83%;在区分RR与SP时,平均分类准确率为76%;在区分HC与CIS时,平均分类准确率为79%。每种分类任务都观察到了不同的改变模式,为了解多发性硬化症表型的病理生理学提供了重要见解:萎缩和松弛度在HC和CIS与MS的分类中表现尤为突出,松弛度在RR与SP的病变中表现尤为突出,钠离子浓度在HC与CIS的分类中表现尤为突出,微结构改变涉及所有任务。
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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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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