Author Of 2 Presentations

Clinical Outcome Measures Poster Presentation

P0024 - Alemtuzumab slowed brain atrophy over 6 years in patients without relapse and MRI disease activity: post hoc analysis of the pooled CARE-MS studies (ID 784)

Abstract

Background

Over 2 years in the CARE-MS trials (NCT00530348; NCT00548405), alemtuzumab (12 mg/day; baseline (BL): 5 days; 12 months later: 3 days) significantly improved clinical and MRI outcomes versus subcutaneous interferon beta-1a (SC IFNB-1a) in relapsing-remitting multiple sclerosis patients. Alemtuzumab efficacy was maintained through a 4-year extension study (NCT00930553), wherein patients could receive additional 3-day courses (≥12 months apart, as needed for disease activity) or receive other disease-modifying therapy per investigator’s discretion.

Objectives

To evaluate post hoc the effects of alemtuzumab on brain atrophy over 6 years in CARE-MS patients without relapses and MRI disease activity.

Methods

Analysis included pooled CARE-MS patients with or without disease activity between BL and Year 1 or BL and Year 2. Absence of disease activity was defined as no BL gadolinium (Gd)-enhancing T1 lesions and no clinical relapses or MRI disease activity (new Gd-enhancing or new/enlarging T2 lesions) from Years 0-1 or Years 0-2 (Definition 1). A second definition had the additional criterion of no relapse within 60 days before BL (Definition 2). Brain atrophy was measured by brain parenchymal fraction (BPF); differences in the median annualized percent change in BPF were assessed using ranked ANCOVA adjusted for region and BL BPF.

Results

Compared with SC IFNB-1a, alemtuzumab reduced median annualized percent change in BPF in patients free of disease activity during Years 0-1 (Definition 1: -0.37% vs -0.61%, P=0.006; Definition 2: -0.36% vs -0.54%, P=0.024) or Years 0-2 (Definition 1: -0.27% vs -0.44%, P=0.014; Definition 2: -0.28% vs -0.41%, P=0.045). Median annualized percent change in BPF was reduced with alemtuzumab versus SC IFNB-1a in patients with disease activity in Years 0-1 (-0.61% vs -0.79%, P=0.005) or Years 0-2 (-0.40% vs -0.56%, P<0.0001). Over 6 years, brain volume loss (BVL) was slower in patients without disease activity who initiated alemtuzumab at core study BL (-1.66%) than in those who received SC IFNB-1a in the core studies and initiated alemtuzumab in the extension (-2.05%).

Conclusions

Brain atrophy was reduced with alemtuzumab compared with SC IFNB-1a in patients without disease activity over 2 years. A slower rate of BVL was maintained through Year 6 in patients without disease activity who received alemtuzumab in the core study compared with SC IFNB-1a, suggesting alemtuzumab may slow neurodegeneration associated with BVL.

STUDY SUPPORT: Sanofi.

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Biomarkers and Bioinformatics Poster Presentation

P0083 - Gadolinium improves detection of central vein lesions in MS using 3T FLAIR*. (ID 1404)

Abstract

Background

The central vein sign (CVS) is a proposed MRI diagnostic biomarker for multiple sclerosis (MS). Use of gadolinium (Gd) in the CVS literature has been inconsistent, and it is unknown whether Gd improves detection of CVS when using FLAIR*.

Objectives

To determine if, and to what extent, gadolinium injection improves detection of CVS lesions when using FLAIR* imaging.

Methods

A cross-sectional multicenter study recruited adults clinically and/or radiologically suspected of having MS. High-isotropic-resolution, T2*-weighted segmented echo-planar imaging (T2*-EPI) was acquired pre- and post-injection of Gd-based contrast agent at 3T; pre-Gd 3D FLAIR images were also acquired. T2*-EPI and FLAIR images were processed on the QMENTA platform to generate FLAIR* images. FLAIR* pre-Gd and post-Gd scans from this substudy of 30 patients at 5 sites were analyzed. FLAIR images were used to create T2 lesion masks. Subsequently, FLAIR* images were evaluated in a random order. Lesions were categorized as CVS+, CVS-, or excluded based on the North American Imaging in MS (NAIMS) Criteria by two trained raters blinded to clinical data and Gd use. The proportion of CVS+ lesions was calculated for each scan, and differences in CVS detection based on Gd use were assessed by a Wilcoxon rank-sum test. Diagnostic performance was compared against McDonald 2017 Criteria.

Results

The mean participant age was 45 years (SD: 12); 23 (77%) were women. 14 (47%) met McDonald 2017 Criteria for MS, while 16 (53%) did not (“non-MS”). A total of 487 CVS+ lesions and 976 CVS- lesions were evaluated. The percentage of CVS+ lesions post-Gd in the MS group (median 67% [IQR 30%]) was higher than pre-Gd (41% [47%], p<0.001). There was no apparent difference in percentage of CVS+ lesion in the non-MS group (post-Gd: 10% [23%]; pre-Gd: 5% [29%]; p=0.1). In the MS group, 12/14 (86%) had ≥40% CVS+ lesions on post-Gd imaging, whereas only 8/14 (57%) exceeded that threshold on pre-Gd imaging. When evaluating CVS performance using the 40% CVS+ threshold, the sensitivity and specificity of the CVS post-Gd for MS were 86% and 81%, respectively, compared to 54% and 86% pre-Gd.

Conclusions

The detection of the CVS using FLAIR* at 3T is improved when Gd is used. Based on these results, a multicenter prospective CVS diagnostic study, sponsored by NINDS and NAIMS, will use Gd in the study protocol. Future clinical use of the CVS should balance the increased costs and potential risks of Gd use with the risks of misdiagnosis due to missing CVS on non-contrast imaging.

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