Author Of 1 Presentation
P0623 - Quantifying Cervical and Thoracic Cord Atrophy in Multiple Sclerosis (ID 1478)
Abstract
Background
Spinal cord atrophy contributes to disability in multiple sclerosis (MS), and its quantification along the entire spinal cord may be important to fully characterize the disease.
Objectives
We sought to characterize atrophy of the entire spinal cord in various multiple sclerosis phenotypes and determine its clinical correlates in a cross-sectional study. Further, we sought to evaluate its evolution in a longitudinal study of relapsing remitting MS (RRMS).
Methods
Axial T1-weighted images perpendicular to cord edge were automatically reformatted at each point along the cord. Spinal cord cross‐sectional area (SCCSA) were calculated from C1-T10 vertebral body levels and profile plots were compared across phenotypes. Average values from C2-3, C4-5, and T4-9 regions were compared across phenotypes and correlated with clinical scores, then categorized as atrophic/normal based on z-scores derived from controls, to compare clinical scores between subgroups. In the subset of relapsing-remitting cases with longitudinal scans, cases showing clinical progression (progressive-disability group) were defined as those in whom change in EDSS was ≥ 1 , while all other cases were grouped as having stable-disability. A random coefficient model for longitudinal data was applied to evaluate the change of regional-SCCSA variables over time, including in the model the disability group (progressive vs. stable), age, and the interaction between disability group and age.
Results
The cross-sectional study consisted of 149 adults with RRMS, 49 with secondary-progressive MS, 58 with primary-progressive MS and 48 healthy controls. The longitudinal study included 78 RRMS cases. Compared to controls, all MS groups had smaller average regions except RRMS in T4-9 region. Measures from all regions of the RRMS cohort correlated with clinical measures, whereas the progressive cohorts had fewer clinical correlates. In the RRMS cohort, 23% of cases had at least one atrophic region, whereas in progressive MS the rate was almost 70%. Longitudinal analysis demonstrated a correlation between disability and cervical cord thinning, as the random coefficient model showed a significant interaction between groups (stable- vs. progressive-disability) and age for cervical regional-SCCSA variables, indicating that the rate of decrease in regional-SCCSA with age in the progressive disability group was significantly higher than that in the stable disability group (0.62 mm2/year vs. 0.07 mm2/year for C2–3, p=0.0015; 0.72 mm2/year vs. 0.29 mm2/year for C4–5, p=0.0038).
Conclusions
Spinal cord atrophy was demonstrated in all MS phenotypes, with SCCSA from all regions showing significant correlations with all clinical parameters in RRMS cohort. Longitudinal changes in the cervical regions were significantly higher in RRMS subjects showing clinical progression than those who did not. SCCSA is therefore a potential imaging marker for disease progression.