Retinal and cortical evoked responses to chromatic contrast stimuli: Specific losses in both eyes of patients with multiple sclerosis and unilateral optic neuritis

doi:10.1093/brain/119.3.723

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Brain, Vol. 119, No. 3, 723-740, 1996
© 1996 Guarantors of Brain

research-article

Retinal and cortical evoked responses to chromatic contrast stimuli

Specific losses in both eyes of patients with multiple sclerosis and unilateral optic neuritis

Vittorio Porciatti¹^, and Ferdinando Sartucci²

¹Institute of Neurophysiology, CNR Italy ²Institute of Neurology, University of Pisa Italy

Correspondence to: Correspondence to: Dr V. Porciatti, Istituto di Neurofisiologia del C.N.R., 51, via S. Zeno, I-56127 Pisa, Italia

It is known that vision may be altered in optic neuritis. Ouraim was to establish whether chromatic and achromatic visionare differentially impaired using stimuli designed to favourthe activity of either the magnocellular or the parvocellularstream of the visual pathway. Fourteen patients with a pasthistory of unilateral optic neuritis in the course of multiplesclerosis and 10 age-matched control subjects were includedin the study. Patients had relatively good visual acuity inthe affected eyes and no gross colour deficits (Ishihara). Stimuliwere alternating gratings of low spatial frequency and of differentchromaticity along the red-green axis. The psychophysical contrastsensitivity (CS) was measured at 5 Hz as a function of colourratio [red/(red+green)) to evaluate both the equiluminant point(the colour ratio corresponding to the lowest CS) and the CSfor isochromatic, luminance gratings (red-black and green-black).Steady-state (2–24 Hz) and transient pattern electroretinograms(PERGs) and visually evoked potentials (VEPs) were recordedin response to high contrast (90%) stimuli of low spatial frequency(0.3 cycles deg ¹) modulated in either pure chromatic contrast(equiluminant red-green) or pure luminance contrast (yellow–black).On average, CSs were reduced (10 dB) in optic neuritis eyescompared with controls for both luminance and chromatic gratings.In the VEPs (both transient and steady-state) amplitude lossesand latency delays were far larger for the chromatic VEPs thanfor the luminance VEPs. Chromatic VEP latency delays were remarkablealso in the fellow, clinically normal, eyes. Significant losseswere apparent in both the luminance and chromatic PERG. However,the chromatic PERG was comparatively more altered. In agreementwith previous reports, selective losses were not apparent atthreshold. By contrast, suprathreshold electrophysiologicalresponses displayed a clear dissociation between luminance andcolour, suggesting that the parvocellular stream, compared withthe magnocellular stream is more impaired in optic neuritis.

chromatic contrast; pattern electroretinogram; visually evoked potential; optic neuritis; multiple sclerosis

Received August 2, 1995. Revised January 5, 1996. Accepted February 6, 1996.

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