Publications 2013

The learning-oddball paradigm: Data of 24 separate individuals illustrate its potential usefulness as a new clinical tool

  

Objective In a previous article reporting group data, we presented event-related potentials (ERPs), which were evoked by randomly presented target stimuli in a 'learning-oddball' task. These ERPs contained a large N2-P3 complex that decreased and a Contingent Negative Variation (CNV) that increased when the targets were presented in a regular fashion. Using the learning-oddball paradigm, the aim of the present paper was to determine ERP effects of introducing regularity in individual participants.

Methods  The data from the previous study were re-analyzed at the level of the individual participant, extracting individual sigmoid curves by means of wavelet-denoising and focusing on RTs, and CNV, N2, and P3 ERP components.

Results  Most participants displayed significant sigmoid curves with respect to the P3 component (22 of the 24 participants - 22/24), the N2 component (20/24), and/or the CNV (19/24) component. In contrast, reaction times (RTs) appeared less sensitive to incidental learning (15/24). Modest correlations were observed between RTs and N2 component amplitudes.

Conclusions  It is possible to extract significant ERP changes to introducing regularity in individual participants.

Significance  Tracking ERP changes within the learning-oddball paradigm might be a useful tool to assess pattern detection capacities in individual patients.