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A new method to investigate brain stem structural–functional correlations using digital post‐processing MRI – reliability in ischemic internuclear ophthalmoplegia
Author(s) -
Marx J. J.,
Thoemke F.,
Fitzek S.,
Vucurevic G.,
Fitzek C.,
MikaGruettner A.,
Urban P. P.,
Stoeter P.,
Hopf H. C.
Publication year - 2001
Publication title -
european journal of neurology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.881
H-Index - 124
eISSN - 1468-1331
pISSN - 1351-5101
DOI - 10.1046/j.1468-1331.2001.00279.x
Subject(s) - medicine , medial longitudinal fasciculus , internuclear ophthalmoplegia , lesion , magnetic resonance imaging , diffusion mri , neuroscience , pathology , radiology , central nervous system , psychology , midbrain , multiple sclerosis , psychiatry
We investigated the reliability of a new digital post‐processing magnetic resonance imaging (MRI) technique in ischemic brain stem lesions to identify relations of the lesion to anatomical brain stem structures. The target was a medial longitudinal fasciculus (MLF) lesion, which was evident from ipsilateral internuclear ophthalmoplegia (INO). Sixteen patients with acute unilateral INO and an isolated acute brain stem lesion in T2‐ and EPI‐diffusion weighted MRI within 2 days after the onset of symptoms were studied. The MRI slice direction was parallel and perpendicular to a slice selection of a stereotactic anatomical atlas. The individual slices were normalized and projected in the digitalized atlas. The eye movement disorder was monitored by electro‐oculography. In all patients with clinical or subclinical electro‐oculographically documented INO and MRI proven brain stem infarction the lesion covered or at least partially overlapped the ipsilateral MLF at one or more atlas levels. We conclude that digital post‐processing MRI with normalizing and projecting brain stem lesions in an anatomical atlas is a reliable method to demonstrate the anatomical structures involved by the lesion. Combined with electrophysiological brain stem testing, this method may be a useful tool to identify incompletely understood pathways mediating brain stem reflexes or the generators of evoked potentials.