Oligoclonal bands, age 11-17 years, occipital lesion, and female sex differentiate pediatric multiple sclerosis from acute disseminated encephalomyelitis: A nationwide cohort study.

BACKGROUND: Our aim was to propose criteria to distinguish multiple sclerosis (MS) from acute disseminated encephalomyelitis (ADEM) at onset based on age at onset, sex, cerebrospinl fluid (CSF)-specific oligoclonal bands, and MRI. METHODS: A neuroradiologist undertook retrospective evaluation of the baseline magnetic resonance imaging (MRI) in a nationwide cohort of children with medical record-validated MS (n = 67) and monophasic ADEM (n = 46). Children with ADEM had at least 5 years of follow-up for relapse. We used forward stepwise conditional logistic regression to develop our criteria based on age at onset, sex, CSF-specific oligoclonal bands, and MRI. We undertook sensitivity analyses using children with ADEM including encephalopathy and polyfocal neurological deficits and in those with onset between 11 and 17 years of age. We estimated accuracy statistics from our criteria and all previously proposed MRI criteria to distinguish MS and ADEM. RESULTS: The best performing criteria to differentiate MS from ADEM were scoring at least three points in the following categories: presence of CSF-specific oligoclonal bands (2 points), occipital lesion (1 point), age 11-17 years (1 point), female sex (1 point). These criteria gave highly reliable discrimination with sensitivity of 95% (95% CI=89%-100%), specificity of 100% (95% CI=100%-100%), and area under the curve of 98% (95% CI=95%-100%). The best performing MRI criteria had area under the curve of 84% (95% CI=78%-91%). Previously proposed MRI criteria had the following areas under the curve: Callen (75%), KIDMUS (82%), and McDonald 2017 criteria (68%). CONCLUSION: Combining sex, age at onset, CSF-specific oligoclonal bands, and MRI gives highly reliable differentiation between pediatric MS and monophasic ADEM at onset.

Magnetic resonance imaging criteria at onset to differentiate pediatric multiple sclerosis from acute disseminated encephalomyelitis: A nationwide cohort study.

BACKGROUND: MRI of the nervous system is the critical in distinguishing pediatric MS from acute disseminated encephalomyelitis (ADEM). Our aim was to propose MRI criteria to distinguish MS from monophasic ADEM based on the first MRI and to validate previously proposed MRI criteria. METHODS: A neuroradiologist undertook retrospective evaluation of the MRI at the first demyelinating event in children (<18 years) with medical record-validated MS and ADEM in Denmark during 2008-15. We used forward stepwise logistic regression to identify MRI categories that differed significantly between MS and ADEM. We estimated accuracy statistics for all MRI criteria to distinguish MS from ADEM. RESULTS: The monophasic ADEM cohort (n=46) was nationwide and population-based during 2008-15; the median age at onset of 5.3 years (range 0.8‒17.2) and children had at least five years of follow-up to ensure a monophasic disease course. Children with MS (n=67) had a median age at onset of 16.3 years (range 3.3‒17.9). Having at least two categories best distinguished MS from monophasic ADEM by an area under the curve of 83% to 89%: (a) corpus callosum long axis perpendicular lesion; (b) only well-defined lesions; (c) absence of basal ganglia or thalamus lesion OR, (a) corpus callosum long axis perpendicular lesion; (b) only well-defined lesions; (c) absence of diffuse large lesions; (d) black holes. The Callen, KIDMUS, and IPMSSG criteria performed well. The McDonald 2017, Barkhof, MAGNIMS, and Verhey criteria had poorer performance. CONCLUSION: This study provides Class II evidence that MRI has good performance in differentiating MS from monophasic ADEM at onset.

Validation of MRI radiological reports in pediatric MS according to the McDonald 2017 criteria: A Danish nationwide multicenter cohort study.

BACKGROUND: MRI allows demonstration of dissemination in space and time at the first demyelinating event. However, no pediatric MS study has investigated the validity of MS-specific outcomes described in MRI radiological reports that clinicians rely on to make the MS diagnosis and to assess the MS treatment effect. Our aim was to validate MS-specific outcomes in hospital MRI reports in pediatric MS by comparing MS-specific outcomes in MRI reports with secondary MRI review. METHODS: A senior consultant and a resident neurologist extracted data on MS-specific outcomes from MRI reports at baseline and follow-up in children with MS onset during 2008-15 in Denmark. Gold standard was an expert neuroradiologist's secondary MRI review. We estimated percent agreement and Kappa values by comparing data extracted from hospital MRI reports (what we wanted to test) with results from the secondary MRI reviews (our gold standard). RESULTS: Among 55 children with MS, we included 44 baseline and 48 follow-up MRIs. The median age at MS onset was 16.3 years (range 9.2‒17.9). Agreement between the MRI reports and the secondary MRI review ranged 68%-100% for MS-specific outcomes; agreement was higher when MRI outcomes were present. Kappa values ranged from 0.42 ("moderate") to 1.00 ("excellent"). Kappa for fulfillment of the McDonald 2017 criteria was 0.60 on baseline MRI, and 0.53 on follow-up MRI. Kappa for a new lesion on follow-up MRI was 0.41. CONCLUSION: Agreement was moderate to good for most MS-specific outcomes between MS neurologists' data extraction from hospital MRI radiological reports compared with a neuroradiologist's secondary MRI review. The agreement was moderate for both fulfilling the McDonald 2017 criteria and acquiring a new lesion on follow-up MRI. We recommend structured MRI reporting in children suspected of acquired demyelinating syndromes to increase validity of hospital MRI reports and clinical use.