Brigham & Women's Hospital/Harvard Medical School
Department of Neurology

Author Of 1 Presentation

Imaging Oral Presentation

HT05.03 - Presentation 03 - 7T MRI cerebral leptomeningeal enhancement predicts gray and white matter lesion accumulation one year later in relapsing-remitting multiple sclerosis

Speakers
Presentation Number
HT05.03
Presentation Topic
Imaging
Lecture Time
10:39 - 10:51

Abstract

Background

We recently showed that 7T MRI leptomeningeal enhancement (LME) is common in relapsing-remitting multiple sclerosis (RRMS) and is related to gray matter (cortical/thalamic) and white matter (WMLs) lesions.

Objectives

To investigate the dynamics of LME longitudinal change and relationship to subsequent lesion accumulation using 7T MRI.

Methods

25 RRMS subjects [age 44.5±11.2 years (mean±SD), 68% women, Expanded Disability Status Scale (EDSS) 2.0±1.5, 92% on disease-modifying therapy-DMT] and 12 healthy controls (HC) underwent brain 3D MP2RAGE and FLAIR 7T MRI with 0.7 mm3 voxels at baseline and ~1 year. Gadolinium-enhanced 3D-FLAIR was evaluated for LME. WMLs, cortical lesions (CLs) and thalamic lesions (TLs) were expert-quantified. Wilcoxon rank-sum, two-sample t-tests and Spearman’s correlations were investigated.

Results

LME was found in 17/25 (68%) RRMS subjects at baseline and 18/25 (72%) at follow-up vs. a single stable focus in 1/12 HC (8.3%). In the RRMS group, 42 LME foci [mean 2.5±1.1 (range 1-5) per LME+ subject] were identified at baseline versus 48 foci [2.7±1.2 (1-5)] at follow-up. LME foci number at follow-up was unchanged in 18 (72%) RRMS subjects, increased in 6 (24%), decreased in 1 (4%). All 6 subjects with increased LME foci were on treatment [glatiramer acetate, interferon-β (2), rituximab, ocrelizumab, fingolimod]. The subject with LME resolution was treated with ocrelizumab. LME+ subjects had an on-study increase in volume of WMLs (baseline 11.0±14.4 vs. follow-up 12.6±16.3 ml, p<0.001), CLs (0.85±1.2 vs. 1.0±1.4 ml, p=0.002) and TLs (0.103±0.093 vs. 0.117±0.099 ml, p=0.005), whereas LME- subjects had an increase only in WML volume (2.7±2.3 vs. 3.3±2.6 ml, p=0.023). Baseline LME foci number correlated with 1-year change in CL (r=0.36, p=0.078) and WML (r=0.50, p=0.010) volumes. Minimal EDSS change over 1 year was noted. We used these data as the basis for a sample size calculation for a hypothetical trial of a putative therapy that would reduce the rate of MRI lesion accrual by 80% over 1 year. For a single-arm study with 1-year run-in on standard therapy and 1 year on new treatment to achieve 80% power, sample sizes of n=46, n=56 and n=79 were calculated for CL volume, TL volume and LME foci number, respectively.

Conclusions

The evolution of cerebral LME may be a dynamic process in the short term in RRMS, providing a monitoring tool, with about one quarter of patients showing new foci at one year. LME may pose a risk for the subsequent development of new lesions in widespread brain regions, implicating meningeal involvement as a marker or mediator of increased disease severity.

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Presenter Of 1 Presentation

Imaging Oral Presentation

HT05.03 - Presentation 03 - 7T MRI cerebral leptomeningeal enhancement predicts gray and white matter lesion accumulation one year later in relapsing-remitting multiple sclerosis

Speakers
Presentation Number
HT05.03
Presentation Topic
Imaging
Lecture Time
10:39 - 10:51

Abstract

Background

We recently showed that 7T MRI leptomeningeal enhancement (LME) is common in relapsing-remitting multiple sclerosis (RRMS) and is related to gray matter (cortical/thalamic) and white matter (WMLs) lesions.

Objectives

To investigate the dynamics of LME longitudinal change and relationship to subsequent lesion accumulation using 7T MRI.

Methods

25 RRMS subjects [age 44.5±11.2 years (mean±SD), 68% women, Expanded Disability Status Scale (EDSS) 2.0±1.5, 92% on disease-modifying therapy-DMT] and 12 healthy controls (HC) underwent brain 3D MP2RAGE and FLAIR 7T MRI with 0.7 mm3 voxels at baseline and ~1 year. Gadolinium-enhanced 3D-FLAIR was evaluated for LME. WMLs, cortical lesions (CLs) and thalamic lesions (TLs) were expert-quantified. Wilcoxon rank-sum, two-sample t-tests and Spearman’s correlations were investigated.

Results

LME was found in 17/25 (68%) RRMS subjects at baseline and 18/25 (72%) at follow-up vs. a single stable focus in 1/12 HC (8.3%). In the RRMS group, 42 LME foci [mean 2.5±1.1 (range 1-5) per LME+ subject] were identified at baseline versus 48 foci [2.7±1.2 (1-5)] at follow-up. LME foci number at follow-up was unchanged in 18 (72%) RRMS subjects, increased in 6 (24%), decreased in 1 (4%). All 6 subjects with increased LME foci were on treatment [glatiramer acetate, interferon-β (2), rituximab, ocrelizumab, fingolimod]. The subject with LME resolution was treated with ocrelizumab. LME+ subjects had an on-study increase in volume of WMLs (baseline 11.0±14.4 vs. follow-up 12.6±16.3 ml, p<0.001), CLs (0.85±1.2 vs. 1.0±1.4 ml, p=0.002) and TLs (0.103±0.093 vs. 0.117±0.099 ml, p=0.005), whereas LME- subjects had an increase only in WML volume (2.7±2.3 vs. 3.3±2.6 ml, p=0.023). Baseline LME foci number correlated with 1-year change in CL (r=0.36, p=0.078) and WML (r=0.50, p=0.010) volumes. Minimal EDSS change over 1 year was noted. We used these data as the basis for a sample size calculation for a hypothetical trial of a putative therapy that would reduce the rate of MRI lesion accrual by 80% over 1 year. For a single-arm study with 1-year run-in on standard therapy and 1 year on new treatment to achieve 80% power, sample sizes of n=46, n=56 and n=79 were calculated for CL volume, TL volume and LME foci number, respectively.

Conclusions

The evolution of cerebral LME may be a dynamic process in the short term in RRMS, providing a monitoring tool, with about one quarter of patients showing new foci at one year. LME may pose a risk for the subsequent development of new lesions in widespread brain regions, implicating meningeal involvement as a marker or mediator of increased disease severity.

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Author Of 1 Presentation

COVID-19 Late Breaking Abstracts

LB1262 - Low Prevalence of SARS-CoV-2 Antibodies in People with Multiple Sclerosis Residing in Massachusetts (ID 2159)

Abstract

Background

Seroepidemiology is an important tool to characterize the epidemiology and immunobiology of SARS-CoV-2. Most people with multiple sclerosis (MS) are treated with immunomodulators or immunosuppressants, so it is crucial to understand the immune response to the novel SARS-CoV-2 in people with MS.

Objectives

To investigate the prevalence and persistence of the SARS-CoV-2 antibody response in MS and how this relates to MS phenotype and treatment.

Methods

227 consecutive people with MS residing in MA and receiving care at Massachusetts General Hospital or Brigham and Women’s Hospital and 143 of their cohabitants were enrolled May 29-July 23, 2020. In addition, 8 people with MS receiving care elsewhere who tested positive for SARS-CoV-2 nasal swab PCR and 7 cohabitants of that group were enrolled to enrich the sample for select analyses. Each participant remotely submitted a dried blood card for in-house MGH SARS-CoV-2 IgG ELISA assay testing. The assay displays 99.7% sensitivity and 100% specificity >14 days from symptom onset. Participants completed a REDCap questionnaire covering demographics, MS history and treatments, comorbidities, and COVID-19 symptoms and exposure. Antibody prevalence in MS participants will be compared to that in their cohabitants using Pearson’s Chi-squared tests.

Results

The majority of MS participants were characterized as relapsing/remitting (76.8%) and were taking disease modifying therapies (72.6%) at the time of collection. SARS-CoV-2 antibodies were detected in 3.5% of people with MS residing in MA and 6.3% of their cohabitants (X2=1.54, p=0.22). For comparison, ~1.5% of the MA population had tested positive by PCR in this date range. Exposure and treatment data will be presented in 13 cases of antibody discordance between the person with MS and his/her cohabitant; the person with MS was antibody-negative in 10 cases and antibody-positive in 3 cases with discordance. In total there were 6 MS participants and no cohabitants who previously tested positive by nasal swab PCR but lacked antibodies at follow-up. Of the COVID-positive participants (by PCR or antibody), 54.5% (6 of 11) of MS and 88.9% (8 of 9) of cohabitants were asymptomatic (p=0.16).

Conclusions

Antibody prevalence was low overall in people with MS residing in MA. Discordance between MS participants and their cohabitants and lack of detectable antibodies in some people with MS with prior nasal swab PCR positivity suggest SARS-CoV-2 antibodies may be less persistent in people with MS.

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