Deep Learning to Differentiate Parkinsonian Syndromes Using Multimodal Magnetic Resonance Imaging: A Proof-of-Concept Study.

IF 7.6 1区医学 Q1 CLINICAL NEUROLOGY

Movement Disorders Pub Date : 2025-07-24 DOI:10.1002/mds.30300

Giulia Maria Mattia,Lydia Chougar,Alexandra Foubert-Samier,Wassilios G Meissner,Margherita Fabbri,Anne Pavy-Le Traon,Olivier Rascol,David Grabli,Bertrand Degos,Nadya Pyatigorskaya,Alice Faucher,Marie Vidailhet,Jean-Christophe Corvol,Stéphane Lehéricy,Patrice Péran

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引用次数: 0

Abstract

BACKGROUND The differentiation between multiple system atrophy (MSA) and Parkinson's disease (PD) based on clinical diagnostic criteria can be challenging, especially at an early stage. Leveraging deep learning methods and magnetic resonance imaging (MRI) data has shown great potential in aiding automatic diagnosis. OBJECTIVE The aim was to determine the feasibility of a three-dimensional convolutional neural network (3D CNN)-based approach using multimodal, multicentric MRI data for differentiating MSA and its variants from PD. METHODS MRI data were retrospectively collected from three MSA French reference centers. We computed quantitative maps of gray matter density (GD) from a T1-weighted sequence and mean diffusivity (MD) from diffusion tensor imaging. These maps were used as input to a 3D CNN, either individually ("monomodal," "GD" or "MD") or in combination ("bimodal," "GD-MD"). Classification tasks included the differentiation of PD and MSA patients. Model interpretability was investigated by analyzing misclassified patients and providing a visual interpretation of the most activated regions in CNN predictions. RESULTS The study population included 92 patients with MSA (50 with MSA-P, parkinsonian variant; 33 with MSA-C, cerebellar variant; 9 with MSA-PC, mixed variant) and 64 with PD. The best accuracies were obtained for the PD/MSA (0.88 ± 0.03 with GD-MD), PD/MSA-C&PC (0.84 ± 0.08 with MD), and PD/MSA-P (0.78 ± 0.09 with GD) tasks. Patients misclassified by the CNN exhibited fewer and milder image alterations, as found using an image-based z score analysis. Activation maps highlighted regions involved in MSA pathophysiology, namely the putamen and cerebellum. CONCLUSIONS Our findings hold promise for developing an efficient, MRI-based, and user-independent diagnostic tool suitable for differentiating parkinsonian syndromes in clinical practice. © 2025 The Author(s). Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society.

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使用多模态磁共振成像的深度学习来区分帕金森综合征：一项概念验证研究。

基于临床诊断标准区分多系统萎缩（MSA）和帕金森病（PD）可能具有挑战性，特别是在早期阶段。利用深度学习方法和磁共振成像（MRI）数据在辅助自动诊断方面显示出巨大的潜力。目的：利用多模态、多中心MRI数据，确定基于三维卷积神经网络（3D CNN）的方法鉴别MSA及其变体与PD的可行性。方法回顾性收集三个MSA法国参考中心的smri数据。我们从t1加权序列中计算了灰质密度（GD）的定量图，从扩散张量成像中计算了平均扩散率（MD）。这些地图被用作3D CNN的输入，要么单独（“单峰”，“GD”或“MD”），要么组合（“双峰”，“GD-MD”）。分类任务包括PD和MSA患者的区分。通过分析错误分类的患者并提供CNN预测中最活跃区域的视觉解释，研究了模型的可解释性。结果研究人群包括92例MSA患者(50例MSA- p，帕金森变体；33例小脑型MSA-C；MSA-PC（混合型）9例，PD 64例。PD/MSA （GD-MD为0.88±0.03）、PD/MSA- c&pc （MD为0.84±0.08）和PD/MSA- p （GD为0.78±0.09）任务的准确率最高。使用基于图像的z评分分析发现，被CNN错误分类的患者表现出更少、更轻微的图像改变。激活图突出了参与MSA病理生理的区域，即壳核和小脑。结论本研究结果有望开发一种有效的、基于mri的、独立于用户的诊断工具，适用于临床实践中的帕金森综合征鉴别。©2025作者。Wiley期刊有限责任公司代表国际帕金森和运动障碍学会出版的《运动障碍》。

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来源期刊

Movement Disorders 医学-临床神经学

CiteScore

13.30

自引率

8.10%

发文量

371

审稿时长

12 months

期刊介绍： Movement Disorders publishes a variety of content types including Reviews, Viewpoints, Full Length Articles, Historical Reports, Brief Reports, and Letters. The journal considers original manuscripts on topics related to the diagnosis, therapeutics, pharmacology, biochemistry, physiology, etiology, genetics, and epidemiology of movement disorders. Appropriate topics include Parkinsonism, Chorea, Tremors, Dystonia, Myoclonus, Tics, Tardive Dyskinesia, Spasticity, and Ataxia.