Post-mortem high-resolution MRI of the spinal cord in multiple sclerosis: A correlative study with conventional MRI, histopathology and clinical phenotype

doi:10.1093/brain/124.1.154

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Brain, Vol. 124, No. 1, 154-166, January 2001
© 2001 Oxford University Press

Post-mortem high-resolution MRI of the spinal cord in multiple sclerosis

A correlative study with conventional MRI, histopathology and clinical phenotype

G. J. Lycklama à Nijeholt¹^,2, E. Bergers¹^,2, W. Kamphorst³, J. Bot¹^,2, K. Nicolay⁵, J. A. Castelijns¹^,2, J. H. T. M. van Waesberghe¹^,2, R. Ravid⁶, C. H. Polman¹^,3 and F. Barkhof¹^,2

¹ Dutch MR Center for MS Research, ² Departments of Radiology, ³ Pathology and ⁴ Neurology, Vrije Universiteit Hospital, Amsterdam, ⁵ Image Sciences Institute, University Medical Centre, Utrecht and ⁶ Dutch Brain Bank, Amsterdam, The Netherlands

Correspondence to: Dr G. J. Lycklama à Nijeholt, Department of Radiology, Vrije Universiteit Hospital, De Boelelaan 1117, 1081 HV Amsterdam, The Netherlands E-mail: g.lycklama{at}azvu.nl

We used high-resolution MRI to study the post-mortem appearanceof spinal cord multiple sclerosis in relation to histopathologyand low-resolution images. Fifty-nine 3 cm long formalin-fixedspinal cord specimens from 19 multiple sclerosis patients andthree controls were studied. Clinical characteristics of eachpatient were reviewed. High-field MRI consisted of proton-densityweighted spin-echo imaging with an in-plane resolution of 80µm. Specimens were also imaged at 1.0 T, with 1 mm pixelresolution. After MRI, the specimens were cut at 5 mm intervalsand stained for myelin (Luxol fast blue/cresyl violet) and axons(Bodian method). Two observers scored the MRIs for abnormalitiesand divided them into (i) well-delineated areas of high signalintensity (SI) and (ii) poorly defined areas of mildly increasedSI. Abnormalities were scored semiquantitatively, white matterand grey matter separately. In 81 sections the total area ofabnormalities per section was measured on both histopathologysections and on matched high-field MRIs. Abnormalities rangedfrom just a few abnormal areas to complete involvement of thespinal cord specimen. Patients with an aggressive disease coursehad more abnormalities than patients with a mild or intermediatedisease course. Areas of mildly increased SI were seen in allspecimens, and were often found around focal high-SI lesions.However, in six patients, areas of mildly increased SI werethe predominant finding on the MRIs, correlating with a primaryprogressive disease course. Histopathologically, high-SI areascorrelated with complete demyelination, while mildly increasedSI corresponded with partial demyelination. All areas scoredas abnormal by the neuropathologist were also found on the MRIs,and sizes measured using both methods correlated well (r = 0.85,P < 0.01). On conventional MRIs, abnormalities could be recognizedfairly well. However, better differentiation could be made betweenhigh-SI and mildly increased SI abnormalities on the 4.7 T images.In conclusion, high-resolution MRI revealed a great range ofabnormalities in spinal cord multiple sclerosis, which relatedto disease course during life. Furthermore, we found very goodcorrelation between the extent of abnormalities shown by histopathologyand the SI changes on proton-density MRIs, mainly relating todemyelination revealed histopathologically.

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