Principal components analysis for source localization of VEPs in man

J. Maier, Gislin Dagnelie, H. Spekreijse, B. W. van Dijk

Research output: Contribution to journalArticle

Abstract

This study defines and compares the topologies of the visual evoked potentials to various stimuli such as pattern onset/offset, pattern reversal, pattern motion and high frequency luminance flicker. The responses recorded from 24 occipital derivations were examined using a three sphere conductance model to represent the head, with the assumption that activity from an underlying cortical source is equivalent to a single dipole. Principal components analysis was used to find the dimensionality of the data space. From this analysis could be concluded that all stimuli evoked reponses in the primary visual cortex. Only pattern onset, and to a lesser degree pattern offset and pattern reversal, yielded activity in higher visual areas. In particular it has been shown that the CI, CII interval of the pattern onset response has its origins in two different cortical regions. A fast positive (CI)-negative (part of the CII) component arises from area 18 (or 19), a slower negative (initial part of CII) component comes from area 17.

Original languageEnglish (US)
Pages (from-to)165-177
Number of pages13
JournalVision Research
Volume27
Issue number2
DOIs
StatePublished - 1987
Externally publishedYes

Fingerprint

Visual Evoked Potentials
Visual Cortex
Principal Component Analysis
Head

Keywords

  • Dipole
  • Potential distribution
  • Principal components
  • Topology
  • Visual evoked potential

ASJC Scopus subject areas

  • Ophthalmology
  • Sensory Systems

Cite this

Principal components analysis for source localization of VEPs in man. / Maier, J.; Dagnelie, Gislin; Spekreijse, H.; van Dijk, B. W.

In: Vision Research, Vol. 27, No. 2, 1987, p. 165-177.

Research output: Contribution to journalArticle

Maier, J. ; Dagnelie, Gislin ; Spekreijse, H. ; van Dijk, B. W. / Principal components analysis for source localization of VEPs in man. In: Vision Research. 1987 ; Vol. 27, No. 2. pp. 165-177.
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