Clinical relevance of paramagnetic rim lesion heterogeneity in multiple sclerosis.

IF 4.4 2区医学 Q1 CLINICAL NEUROLOGY Annals of Clinical and Translational Neurology Pub Date : 2024-10-09 DOI:10.1002/acn3.52220

Anna Stölting, Colin Vanden Bulcke, Serena Borrelli, Céline Bugli, Renaud Du Pasquier, Vincent van Pesch, Pietro Maggi

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Abstract

Objective: Previous studies reveal heterogeneity in terms of paramagnetic rim lesions (PRL) associated tissue damage. We investigated the physiopathology and clinical implications of this heterogeneity.

Methods: In 103 MS patients (72 relapsing and 31 progressive), brain lesions were manually segmented on 3T 3D-FLAIR and rim visibility was assessed with a visual confidence level score (VCLS) on 3D-EPI phase. Using T1 relaxation time maps, lesions were categorized in long-T1 and short-T1. Lesion age was calculated from time of first gadolinium enhancement (N = 84 lesions). Results on clinical scores were validated in an extended cohort of 167 patients using normalized T1w-MPRAGE lesion values.

Results: Rim visibility (VCLS analysis) was associated with increasing lesional T1 (P/P_FDR < 0.001). Of 1680 analyzed lesions, 427 were categorized as PRL. Long-T1 PRL were older than short-T1 PRL (average 0.8 vs. 2.0 years, P/P_FDR = 0.005/0.008), and featured larger lesional volume (P/P_FDR < 0.0001) and multi-shell diffusion-measured axonal damage (P/P_FDR < 0.0001). The total volume of long-T1-PRL versus PRL showed 2× predictive power for both higher MS disability (EDSS; P/P_FDR = 0.003/0.005 vs. P/P_FDR = 0.042/0.057) and severity (MSSS; P/P_FDR = 0.0006/0.001 vs. P/P_FDR = 0.004/0.007). In random forest, having ≥1 long-T1-PRL versus ≥4 PRL showed 2-4× higher performance to predict a higher EDSS and MSSS. In the validation cohort, long-T1 PRL outperformed (~2×) PRL in predicting both EDSS and MSSS.

Interpretation: PRL show substantial heterogeneity in terms of intralesional tissue damage. More destructive, likely older, long-T1 PRL improve the association with MS clinical scales. This PRL heterogeneity characterization was replicated using standard T1w MRI, highlighting its potential for clinical translation.

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多发性硬化症顺磁边缘病变异质性的临床意义。

目的：以往的研究显示，与顺磁边缘病变（PRL）相关的组织损伤具有异质性。我们研究了这种异质性的生理病理和临床意义：在 103 名多发性硬化症患者（72 名复发患者和 31 名进行性患者）中，通过 3T 3D-FLAIR 对脑部病变进行人工分割，并通过 3D-EPI 相的视觉置信度评分（VCLS）评估边缘可见度。通过 T1 松弛时间图，病变被分为长 T1 和短 T1 两类。病变年龄从首次钆增强的时间开始计算（N = 84 个病变）。使用归一化 T1w-MPRAGE 病灶值对 167 名患者的临床评分结果进行了验证：结果：边缘可见度（VCLS 分析）与病变 T1 增加相关（P/PFDR FDR = 0.005/0.008），病变体积（P/PFDR FDR FDR = 0.003/0.005 vs. P/PFDR = 0.042/0.057）和严重程度（MSSS；P/PFDR = 0.0006/0.001 vs. P/PFDR = 0.004/0.007）较大。在随机森林中，≥1个长T1-PRL与≥4个PRL相比，预测较高的EDSS和MSSS的性能高出2-4倍。在验证队列中，长T1 PRL在预测EDSS和MSSS方面的表现优于PRL（约2倍）：PRL在组织内部损伤方面显示出很大的异质性。更具破坏性、可能更老、长T1的PRL提高了与多发性硬化症临床量表的关联性。使用标准 T1w MRI 复制了这种 PRL 异质性特征，突出了其临床应用的潜力。

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来源期刊

Annals of Clinical and Translational Neurology Medicine-Neurology (clinical)

CiteScore

9.10

自引率

1.90%

发文量

218

审稿时长

8 weeks

期刊介绍： Annals of Clinical and Translational Neurology is a peer-reviewed journal for rapid dissemination of high-quality research related to all areas of neurology. The journal publishes original research and scholarly reviews focused on the mechanisms and treatments of diseases of the nervous system; high-impact topics in neurologic education; and other topics of interest to the clinical neuroscience community.