Abstract
Faces are processed in a network of areas within regions of the ventral visual stream. However, familiar faces typically are characterized by additional associated information, such as episodic memories or semantic biographical information as well. The acquisition of such non-sensory, identity-specific knowledge plays a crucial role in our ability to recognize and identify someone we know. The occipital face area (OFA), an early part of the core face-processing network, is recently found to be involved in the formation of identity-specific memory traces but it is currently unclear if this role is limited to unimodal visual information. The current experiments used transcranial magnetic stimulation (TMS) to test whether the OFA is involved in the association of a face with identity-specific semantic information, such as the name or job title of a person. We applied an identity-learning task where unfamiliar faces were presented together with a name and a job title in the first encoding phase. Simultaneously, TMS pulses were applied either to the left or right OFA or to Cz, as a control. In the subsequent retrieval phase, the previously seen faces were presented either with two names or with two job titles and the task of the participants was to select the semantic information previously learned. We found that the stimulation of the right or left OFA reduced subsequent retrieval performance for the face-associated job titles. This suggests a causal role of the OFA in the association of faces and related semantic information. Furthermore, in contrast to prior findings, we did not observe hemispherical differences of the TMS intervention, suggesting a similar role of the left and right OFAs in the formation of the visual-semantic associations. Our results suggest the necessity to reconsider the hierarchical face-perception models and support the distributed and recurrent models.
Highlights
Faces are processed in regions along the ventral object vision pathway (Ungerleider and Haxby 1994)
transcranial magnetic stimulation (TMS) stimulation of the bilateral occipital face area (OFA) during encoding reduced the proportion of correctly recalled job titles significantly (Fig. 3; main effect of TMS: (F(1,42) = 5.04, p = 0.030, η2p = 0.107)
The average performance as well as the effect of TMS was similar for the two participant groups with left or right OFA stimulation (main effect of hemisphere (F(1,42) = 0.03, p = 0.868, η2p = 0.001; interaction of hemisphere and TMS: (F(1,42) = 0.13, p = 0.910, η2p = 0.000), suggesting similar functions of the two hemispheres
Summary
Faces are processed in regions along the ventral object vision pathway (Ungerleider and Haxby 1994). The face-processing network was seen as a strictly hierarchical system organized in a feedforward manner (Haxby et al 2000; Ishai 2008; Pitcher et al 2011; Zhen et al 2013). In these models, it was assumed that information flows from the early visual cortex toward OFA, where face detection occurs and on to FFA for individual face recognition and to the ATL, amygdala and STS, where more complex processing, such as the identification of individual persons takes place
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