Sr. Benbadis et al., VALUE OF FULL-FIELD VISUAL-EVOKED POTENTIALS FOR RETROCHIASMAL LESIONS, Journal of clinical neurophysiology, 13(6), 1996, pp. 507-510
Some abnormalities in the P100 on monocular stimulation have been said
to indicate retrochiasmal abnormalities, This study was undertaken to
evaluate the reliability of visual evoked potentials (VEPs) for this
purpose. We retrospectively reviewed VEPs that could be interpreted as
indicative of a retrochiasmal lesion, based on an amplitude asymmetry
of >50% between the P100 recorded on the left and right occipital reg
ions. The abnormality had to be present on both left and right monocul
ar stimulation (uncrossed pattern). Studies were conducted in accordan
ce with the guidelines of the American Electroencephalographic Society
. Findings on magnetic resonance (MR) imaging were analyzed. For compa
rison, we also studied a control group of 30 patients with normal VEPs
. During a 16-month period, we identified 15 patients who fulfilled th
e aforementioned criteria and who had undergone an MR scan of the brai
n. Eight scans were normal and seven were abnormal. Of the seven abnor
mal scans, five revealed multiple periventricular white matter lesions
in both hemispheres suggestive of multiple sclerosis: one a single pu
nctate white matter lesion in the left frontal corona radiata, and one
multiple white matter lesions in the basal ganglia, brainstem, and ce
rebellum but not in the hemispheres. In the control group with normal
VEPs, nine had at least one hemispheric lesion on MR scans. This yield
ed a positive predictive value of 33%. The negative predictive value w
as 70%, sensitivity 36%, and specificity 68%, Because of a high rate o
f false positives, full-field VEPs were not reliable in predicting ret
rochiasmal lesions.