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Prediction of visual evoked potentials at any surface location from a set of three recording electrodes

Purpose of this study was to introduce a mathematical model which allows the calculation of a source dipole as the origin of the evoked activity based on the data of three simultaneously recorded VEPs from different locations at the scalp surface to predict field potentials at any neighboring locati...

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Bibliographic Details
Published in:Documenta ophthalmologica 2008-05, Vol.116 (3), p.207-216
Main Authors: Mazinani, Babac A. E., Waberski, Till D., van Ooyen, Andre, Walter, Peter
Format: Article
Language:English
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Summary:Purpose of this study was to introduce a mathematical model which allows the calculation of a source dipole as the origin of the evoked activity based on the data of three simultaneously recorded VEPs from different locations at the scalp surface to predict field potentials at any neighboring location and to validate this model by comparison with actual recordings. In 10 healthy subjects (25–38, mean 29 years) continuous VEPs were recorded via 96 channels. On the base of the recordings at the positions POz′, O1′ and O2′, a source dipole vector was calculated for each time point of the recordings and VEP responses were back projected for any of the 96 electrode positions. Differences between the calculated and the actually recorded responses were quantified by coefficients of variation (CV). The prediction precision and response size depended on the distance between the electrode of the predicted response and the recording electrodes. After compensating this relationship using a polynomial function, the CV of the mean difference between calculated and recorded responses of the 10 subjects was 2.8 ± 1.2%. In conclusion, the “Mini-Brainmapping" model can provide precise topographical information with minimal additional recording efforts with good reliability. The implementation of this method in a routine diagnostic setting as an “easy-to-do" procedure would allow to examine a large number of patients and normal subjects in a short time, and thus, a solid data base could be created to correlate well defined pathologies with topographical VEP changes.
ISSN:0012-4486
1573-2622
DOI:10.1007/s10633-007-9083-8