Central Vein Sign, Cortical Lesions, and Paramagnetic Rim Lesions for the Diagnostic and Prognostic Workup of Multiple Sclerosis

Borrelli, Serena; Martire, Maria Sofia; Stölting, Anna; Vanden Bulcke, Colin; Pedrini, Edoardo; Guisset, François; Bugli, Céline; Yildiz, Halil; Pothen, Lucie; Elands, Sophie; Martinelli, Vittorio; Smith, Bryan; Jacobson, Steven; Du Pasquier, Renaud A.; Van Pesch, Vincent; Filippi, Massimo; Reich, Daniel S.; Absinta, Martina; Maggi, Pietro

doi:10.1212/nxi.0000000000200253

Neurol Neuroimmunol Neuroinflamm

2024

DOI: 10.1212/nxi.0000000000200253

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Central Vein Sign, Cortical Lesions, and Paramagnetic Rim Lesions for the Diagnostic and Prognostic Workup of Multiple Sclerosis

Serena Borrelli,

Maria Sofia Martire,

Anna Stölting

et al.

Abstract: Background and Objectives The diagnosis of multiple sclerosis (MS) can be challenging in clinical practice because MS presentation can be atypical and mimicked by other diseases. We evaluated the diagnostic performance, alone or in combination, of the central vein sign (CVS), paramagnetic rim lesion (PRL), and cortical lesion (CL), as well as their association with clinical outcomes. Methods In this multicenter observational study, we first conducted a cross-sectional a… Show more

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Cited by 4 publications

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Clinical relevance of paramagnetic rim lesion heterogeneity in multiple sclerosis

Stölting,

Vanden Bulcke,

Borrelli

et al. 2024

Ann Clin Transl Neurol

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ObjectivePrevious studies reveal heterogeneity in terms of paramagnetic rim lesions (PRL) associated tissue damage. We investigated the physiopathology and clinical implications of this heterogeneity.MethodsIn 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.ResultsRim visibility (VCLS analysis) was associated with increasing lesional T1 (P/PFDR < 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/PFDR = 0.005/0.008), and featured larger lesional volume (P/PFDR < 0.0001) and multi‐shell diffusion‐measured axonal damage (P/PFDR < 0.0001). The total volume of long‐T1‐PRL versus PRL showed 2× predictive power for both higher MS disability (EDSS; P/PFDR = 0.003/0.005 vs. P/PFDR = 0.042/0.057) and severity (MSSS; P/PFDR = 0.0006/0.001 vs. P/PFDR = 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.InterpretationPRL 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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Clinical relevance of paramagnetic rim lesion heterogeneity in multiple sclerosis

Stölting,

Vanden Bulcke,

Borrelli

et al. 2024

Ann Clin Transl Neurol

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Brain lesion characteristics in Chinese multiple sclerosis patients: A 7‐T MRI cohort study

Su,

Zhang,

Gao

et al. 2024

Ann Clin Transl Neurol

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ObjectivePrevalence, susceptibility genes, and clinical and radiological features may differ across different ethnic groups of multiple sclerosis (MS). We aim to characterize brain lesions in Chinese patients with MS by use of 7‐T MRI.MethodsMS participants were enrolled from the ongoing China National Registry of Neuro‐Inflammatory Diseases (CNRID) cohort. 7‐T MRI of the brain was performed. Each lesion was evaluated according to a standardized procedure. Central vein sign (CVS) and paramagnetic rim lesions were identified. The characteristics of lesions at patient‐level and at lesion‐level from previous 7‐T MRI literature were also summarized.ResultsWe included 120 MS patients. Their mean (SD) age was 34.6 (9.4) years. The female‐to‐male ratio was 1.7:1 and mean disease duration of patients with MS was 5.5 ± 6.1 years. The median EDSS score was 2 (range, 0–8). A total of 8502 lesions were identified with a median lesion count of 45 (IQR, 18–90) (range, 2–370). The median (IQR) percentage for these special locations were as follows: cortical lesions (CLs) 2.7% (0%–5.7%), juxtacortical lesions 16.2% (7.8%–25.7%), periventricular lesions 30.2% (17.2%–38.7%), and infratentorial lesions 5.8% (0.4%–11.9%). CLs occurred in 70 (58%) patients, accounting for only 443 (5%) of the total lesions. Out of the 443 CLs, 309 (69.8%) were leukocortical lesions. CVS appeared in 5392 (63%) lesions from 117 (98%) patients. 1792 (21%) lesions and 104 (87%) patients exhibited a paramagnetic rim.InterpretationOur study elaborated on the lesion features of Chinese patients with MS by use of 7‐T MRI. Lesion burden is heavy in Chinese patients with MS. The median lesion count and proportion of PRL are high. The reported heavy lesion burden calls for ramping up regional and global efforts to care for MS patients. The management and research of Chinese population with MS needs to be further strengthened.

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Emerging MRI biomarkers for the diagnosis of multiple sclerosis

Maggi,

Absinta

2024

Mult Scler

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The need to improve diagnostic precision in multiple sclerosis (MS) is widely recognized. In recent years, several novel magnetic resonance imaging (MRI) biomarkers have been proposed to enhance diagnostic specificity and reduce misdiagnosis. Some of these imaging biomarkers are deemed highly specific for MS and are likely ready to enter the MS diagnostic work-up, while others are still in their exploratory phase. In addition, new synthetic MRI contrasts and artificial intelligence-based diagnostic algorithms are being tested to reduce the time burden related to imaging data acquisition and analysis. In this review, we summarize the most recent advancement in the field, focusing on the adoption of these novel MRI biomarkers—whether used alone or in combination—for the differential diagnosis of MS.

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Central Vein Sign, Cortical Lesions, and Paramagnetic Rim Lesions for the Diagnostic and Prognostic Workup of Multiple Sclerosis

Cited by 4 publications

References 60 publications

Clinical relevance of paramagnetic rim lesion heterogeneity in multiple sclerosis

Clinical relevance of paramagnetic rim lesion heterogeneity in multiple sclerosis

Brain lesion characteristics in Chinese multiple sclerosis patients: A 7‐T MRI cohort study

Emerging MRI biomarkers for the diagnosis of multiple sclerosis

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