Oscillatory MEG gamma band activity dissociates perceptual and conceptual aspects of visual object processing: a combined repetition/conceptual priming study.

We used a combined repetition/conceptual priming task to investigate attenuations of induced gamma-band activity (iGBA) due to prior experience. We hypothesized that distinguishable iGBA suppression effects can be related to the processing of (a) perceptual aspects, and (b) conceptual aspects of cortical object representations. Participants were asked to perform a semantic classification task with pictures of real world objects and their semantically corresponding words, using a design that isolated distinct levels of the neural suppression effect. By means of volumetric source analysis we located stimulus domain-specific iGBA repetition suppression effects (60-90 Hz) in temporal, parietal, and occipital areas of the human cortex. In contrast, domain-unspecific iGBA repetition suppression, corresponding to conceptual priming, was restricted to left temporal brain regions. We propose that the selective involvement of left temporal areas points to the activation of conceptual representations, whereas more posterior temporal, parietal, and occipital areas probably reflect perceptual aspects of higher-order visual object processing.