Publication

Contrast independence of dynamic random dot correlogram evoked VEP amplitude

Journal Paper/Review - Jan 1, 2009

Units
PubMed
Doi

Citation
Markó K, Kiss H, Mikó-Baráth E, Bártfai O, Török B, Kovács I, Jandó G. Contrast independence of dynamic random dot correlogram evoked VEP amplitude. Journal of vision 2009; 9:8.1-10.
Type
Journal Paper/Review (English)
Journal
Journal of vision 2009; 9
Publication Date
Jan 1, 2009
Issn Electronic
1534-7362
Pages
8.1-10
Brief description/objective

Dynamic random dot correlograms (DRDCs) are binocular stimuli that evoke a percept and a visual evoked potential (VEP) only in case of a mature and functional binocular system. DRDC-VEP is a method extensively used to study cortical binocularity in human infants and nonverbal children. Although the DRDC-VEP was invented 3 decades ago, neither the fundamental parameters, including contrast, of the stimulation nor the cerebral processing mechanisms have been clarified. The objective of the present study was to investigate the variability and detectability of adults' VEPs to DRDC under different stimulus contrast conditions. DRDCs were presented on the red and green channels of a computer monitor and were viewed with red-green goggles. The steady state DRDC-VEPs were recorded in healthy adult volunteers, and response reliability was assessed by the T(circ)(2) statistic. DRDC-VEP amplitude was independent of contrast, while VEP phases showed a weak correlation with contrast. Contrast invariance of DRDC-VEP amplitude suggests a very high contrast gain and dominant magnocellular input to the binocular correlation processing system.