Objective: We used ultra-high field MRI to visualize cortical lesion types described by neuropathology in 16 patients with multiple sclerosis (MS) compared with 8 age-matched controls; to characterize the contrast properties of cortical lesions including T2*, T2, T1, and phase images; and to investigate the relationship between cortical lesion types and clinical data. Methods:We collected, on a 7-T scanner, 2-dimensional fast low-angle shot (FLASH)-T2*-weighted spoiled gradient-echo, T2-weighted turbo spin-echo (TSE) images (0.33 ϫ 033 ϫ 1 mm 3 ), and a 3-dimensional magnetization-prepared rapid gradient echo.Results: Overall, 199 cortical lesions were detected in patients on both FLASH-T2* and T2-TSE scans. Seven-tesla MRI allowed for characterization of cortical plaques into type I (leukocortical), type II (intracortical), and type III/IV (subpial extending partly or completely through the cortical width) lesions as described histopathologically. Types III and IV were the most frequent type of cortical plaques (50.2%), followed by type I (36.2%) and type II (13.6%) lesions. Each lesion type was more frequent in secondary progressive than in relapsing-remitting MS. This difference, however, was significant only for type III/IV lesions. T2*-weighted images showed the highest, while phase images showed the lowest, contrast-to-noise ratio for all cortical lesion types. In patients, the number of type III/IV lesions was associated with greater disability (p Ͻ 0.02 by Spearman test) and older age (p Ͻ 0.04 by Spearman test).Conclusions: Seven-tesla MRI detected different histologic cortical lesion types in our small multiple sclerosis (MS) sample, suggesting, if validated in a larger population, that it may prove a valuable tool to assess the contribution of cortical MS pathology to clinical disability. GLOSSARY ANOVA ϭ analysis of variance; BN ϭ background noise; CNR ϭ contrast-to-noise ratio; DIR ϭ double-inversion recovery; EDSS ϭ Expanded Disability Status Scale; FLAIR ϭ fluid-attenuated inversion recovery; FLASH ϭ fast low-angle shot; GM ϭ gray matter; MPRAGE ϭ magnetization-prepared rapid gradient echo; MR ϭ magnetic resonance; MS ϭ multiple sclerosis; NACGM ϭ normal-appearing cortical gray matter; RF ϭ radiofrequency; ROI ϭ region of interest; RRMS ϭ relapsingremitting multiple sclerosis; SNR ϭ signal-to-noise ratio; SPMS ϭ secondary progressive multiple sclerosis; TA ϭ time of acquisition; TE ϭ echo time; TR ϭ repetition time; TSE ϭ turbo spin-echo; WM ϭ white matter.Although cortical lesions were identified as a common finding in multiple sclerosis (MS) from the earliest pathologic studies, 1-3 their significance was underestimated until recent histopathologic data revealed that they constitute a substantial proportion of the total brain MS lesion load. 4,5 The ability of standard field strength scanners (1.5 T, 3 T) to detect and characterize cortical MS pathology is still significantly lower than neuropathology.6 Ultra-high field systems (7 T to 9.4 T) allow a 2-to 3-fold improvement in image sign...
Cortical subpial demyelination is frequent in multiple sclerosis (MS) and is closely associated with disease progression and poor neurological outcome. Although cortical lesions have been difficult to detect using conventional MRI, preliminary data using T2*-weighted imaging at ultra-high field 7T MRI showed improved sensitivity for detecting and categorizing different histological types of cortical MS lesions. In this study we combined high-resolution 7T MRI with a surface-based analysis technique to quantify and map subpial T2*-weighted signal changes in seventeen patients with MS. We applied a robust method to register 7T data with the reconstructed cortical surface of each individual and used a general linear model to assess in vivo an increase in subpial T2*-weighted signal in patients versus age-matched controls, and to investigate the spatial distribution of cortical subpial changes across the cortical ribbon. We also assessed the relationship between subpial T2* signal changes at 7T, Expanded Disability Status Scale (EDSS) score and white matter lesion load (WMLL). Patients with MS showed significant T2*-weighted signal increase in the frontal lobes (parsopercularis, precentral gyrus, middle and superior frontal gyrus, orbitofrontal cortex), anterior cingulate, temporal (superior, middle and inferior temporal gyri), and parietal cortices (superior and inferior parietal cortex, precuneus), but also in occipital regions of the left hemisphere. We found significant correlations between subpial T2*-weighted signal and EDSS score in the precentral gyrus (R=0.56, P=0.02) and between T2*-weighted signal and WMLL in the lateral orbitofrontal, superior parietal, cuneus, precentral and superior frontal regions. Our data support the presence of disseminated subpial increases in T2* signal in subjects with MS, which may reflect the diffuse subpial pathology described in neuropathology.
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