Infratentorial atrophy on magnetic resonance imaging and disability in multiple sclerosis

doi:10.1093/brain/122.2.291

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Brain, Vol. 122, No. 2, 291-301, February 1999
© 1999 Oxford University Press

Infratentorial atrophy on magnetic resonance imaging and disability in multiple sclerosis

S. G. M. Edwards¹, Q. Y. Gong³, C. Liu¹, M. E. Zvartau¹, T. Jaspan² and N. Roberts³

L. D. Blumhardt¹

¹ Division of Clinical Neurology, University of Nottingham, ² Department of Diagnostic Imaging, University Hospital, Queen's Medical Centre, Nottingham and ³ Magnetic Resonance Research Centre, University of Liverpool, UK

Correspondence to: Professor Lance D. Blumhardt, Division of Clinical Neurology, Faculty of Medicine, University Hospital, Queen's Medical Centre, Nottingham NG7 2UH, UK

Loss of tissue volume in the central nervous system may providean index of fixed neurological dysfunction in multiple sclerosis.Recent magnetic resonance studies have shown a modest relationshipbetween clinical disability rating scores and transverse sectionalarea of the cervical spinal cord. To explore further the relationshipbetween atrophy and disability in multiple sclerosis, we estimatedthe volumes of infratentorial structures from MRIs in a cross-sectionalstudy of 41 patients, 21 with relapsing–remitting multiplesclerosis and 20 with secondary progressive multiple sclerosis.We used the Cavalieri method of modern design stereology withpoint counting to estimate the volume of brainstem, cerebellumand upper cervical spinal cord from three-dimensional MRIs acquiredwith an MPRAGE (Magnetization-prepared Rapid Acquisition GradientEcho) sequence. The volume of the upper (C1–C3) cervicalspinal cord was significantly correlated with a composite spinalcord score derived from the appropriate Functional Scale scoresof the Expanded Disability Status Scale (r = –0.50, P <0.01). The cerebellar (r = 0.49, P < 0.01) and brainstem(r = 0.34, P < 0.05) volumes correlated with the Scripp'sNeurological Disability Rating Scale scores. The upper cervicalcord volumes (r = –0.39, P < 0.01), but not the brainstemor cerebellar volumes, were significantly associated with diseaseduration. MRI-estimated structural volumes may provide a simpleindex of axonal and/or myelin loss, the presumed pathologicalsubstrates of irreversible impairment and disability in multiplesclerosis.

multiple sclerosis; MRI; MPRAGE; infratentorial; atrophy

EDSS = Expanded Disability Status Scale; IFS = Infratentorial Functional Score; KFS = Kurtzke Functional System Scores; SNRS = Scripp's Neurological Rating Scale; UCC = upper cervical spinal cord

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