Long-Term Visuo-Gustatory Appetitive and Aversive Conditioning Potentiate Human Visual Evoked Potentials.

Gert R J Christoffersen,Jakob L Laugesen,Christina Liljendahl,Todd R Schachtman,Ida Viemose,Wender L P Bredie,Per Møller

doi:10.3389/fnhum.2017.00467

Gert R J Christoffersen, Jakob L Laugesen + Show 5 more

Open Access

https://doi.org/10.3389/fnhum.2017.00467

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Abstract

Human recognition of foods and beverages are often based on visual cues associated with flavors. The dynamics of neurophysiological plasticity related to acquisition of such long-term associations has only recently become the target of investigation. In the present work, the effects of appetitive and aversive visuo-gustatory conditioning were studied with high density EEG-recordings focusing on late components in the visual evoked potentials (VEPs), specifically the N2-P3 waves. Unfamiliar images were paired with either a pleasant or an unpleasant juice and VEPs evoked by the images were compared before and 1 day after the pairings. In electrodes located over posterior visual cortex areas, the following changes were observed after conditioning: the amplitude from the N2-peak to the P3-peak increased and the N2 peak delay was reduced. The percentage increase of N2-to-P3 amplitudes was asymmetrically distributed over the posterior hemispheres despite the fact that the images were bilaterally symmetrical across the two visual hemifields. The percentage increases of N2-to-P3 amplitudes in each experimental subject correlated with the subject’s evaluation of positive or negative hedonic valences of the two juices. The results from 118 scalp electrodes gave surface maps of theta power distributions showing increased power over posterior visual areas after the pairings. Source current distributions calculated from swLORETA revealed that visual evoked currents rose as a result of conditioning in five cortical regions—from primary visual areas and into the inferior temporal gyrus (ITG). These learning-induced changes were seen after both appetitive and aversive training while a sham trained control group showed no changes. It is concluded that long-term visuo-gustatory conditioning potentiated the N2-P3 complex, and it is suggested that the changes are regulated by the perceived hedonic valence of the US.

Highlights

Identification and selection of food items or beverages is often based on their visual appearance
Changes of the N2-P3 Waves Induced by Conditioning Examples of grand average visual evoked potentials (VEPs) from six posterior electrodes are shown in Figure 2 before and after appetitive conditioning
All the examples show that the N2 and the P3 amplitudes were augmented after conditioning (Figures 2A–C,E–G)

Summary

Introduction

Identification and selection of food items or beverages is often based on their visual appearance. This is made possible because the visual stimulus serves as cue for recall of long-term stored associations between previously seen ingested substances and their flavor. Human VEP Plasticity in Gustatory Conditioning throughout life. In spite of the importance of such associations, only one previous publication has reported on human brain electrophysiological plasticity related to such long-term conditioning (Viemose et al, 2013). Visual stimuli have been paired with auditory USs: the sight of an arrow (CS) combined with high intensity clicks (US) increased the amplitudes of a negative CS-induced VEP-wave with a peak delay of approximately 155 ms (Begleiter and Platz, 1969b). Pairings of faces with a loud aversive noise resulted in stronger face-induced currents compared to unpaired faces in the inferior temporal and the fusiform gyri containing the ‘‘fusiform face area’’ (Sergent et al, 1992; Kanwisher et al, 1997; Parvizi et al, 2012), as well as in cuneus and precuneus (Pizzagalli et al, 2003)

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