Abstract
Recognizing intentions of strangers from facial cues is crucial in everyday social interactions. Recent studies demonstrated enhanced event-related potential (ERP) responses to untrustworthy compared to trustworthy faces. The aim of the present study was to investigate the electrophysiological correlates of automatic processing of trustworthiness cues in a visual oddball paradigm in two consecutive experimental blocks. In one block, frequent trustworthy (p = 0.9) and rare untrustworthy face stimuli (p = 0.1) were briefly presented on a computer screen with each stimulus consisting of four peripherally positioned faces. In the other block stimuli were presented with reversed probabilities enabling the comparison of ERPs evoked by physically identical deviant and standard stimuli. To avoid attentional effects participants engaged in a central detection task. Analyses of deviant minus standard difference waveforms revealed that deviant untrustworthy but not trustworthy faces elicited the visual mismatch negativity (vMMN) component. The present results indicate that adaptation occurred to repeated unattended trustworthy (but not untrustworthy) faces, i.e., an automatic expectation was elicited towards trustworthiness signals, which was violated by deviant untrustworthy faces. As an evolutionary adaptive mechanism, the observed fast detection of trustworthiness-related social facial cues may serve as the basis of conscious recognition of reliable partners.
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Astikainen, P., Ruusuvirta, T., Wikgren, J., Korhonen, T. (2004) The human brain processes visual changes that are not cued by attended auditory stimulation. Neurosci. Lett. 368, 231–234.
Astikainen, P., Hietanen, J. K. (2009) Event-related potentials to task-irrelevant changes in facial expressions. Behav. Brain Funct. 5, 30.
Berti, S. (2011) The attentional blink demonstrates automatic deviance processing in vision. Neuroreport 22, 664–667.
Bond, C. F., Berry, D. S., Omar, A. (1994) The kernel of truth in judgments of deceptiveness. Basic Appl. Soc. Psych. 15, 523–534.
Borkenau, P., Mauer, N., Riemann, R., Spinath, F. M., Angleitner, A. (2004) Thin slices of behavior as cues of personality and intelligence. J. Pers. Soc. Psychol. 86, 599–614.
Cassia, V. M., Kuefner, D., Westerlund, A., Nelson, C. A. (2006) Modulation of face-sensitive eventrelated potentials by canonical and distorted human faces: The role of vertical symmetry and up-down featural arrangement. J. Cognitive Neurosci. 18, 1343–1358.
Clery, H., Andersson, F., Fonlupt, P., Gomot, M. (2013) Brain correlates of automatic visual change detection. Neuroimage 75, 117–122.
Cosmides, L., Tooby, J. (1992) Cognitive adaptations for social exchange. In: Barkow, J. E., Cosmides, L., Tooby, J. (eds) The Adapted Mind: Evolutionary Psychology and the Generation of Culture. Oxford University Press, New York.
Czigler, I., Balazs, L., Winkler, I. (2002) Memory-based detection of task-irrelevant visual changes. Psychophysiology 39, 869–873.
Delorme, A., Makeig, S. (2004) EEGLAB: an open source toolbox for analysis of single-trial EEG dynamics including independent component analysis. J. Neurosci. Methods 134, 9–21.
Dzhelyova, M., Perrett, D. I., Jentzsch, I. (2012) Temporal dynamics of trustworthiness perception. Brain Res. 1435, 81–90.
Ekman, P. (1985) Telling Lies: Clues to Deceit in the Marketplace, Politics, and Marriage. Norton, New York.
Evans, D. W., Orr, P. T., Lazar, S. M., Breton, D., Gerard, J., Ledbetter, D. H., Janosco, K., Dotts, J., Batchelder, H. (2012) Human preferences for symmetry: subjective experience, cognitive conflict and cortical brain activity. PLoS One 7, e38966.
Gayle, L. C., Gal, D. E., Kieffaber, P. D. (2012) Measuring affective reactivity in individuals with autism spectrum personality traits using the visual mismatch negativity event-related brain potential. Front Hum. Neurosci. 6, 334.
Heslenfeld, D. J. (2003) Visual mismatch negativity. In: Polich, J. (ed.) Detection of Change: Event-Related Potential and fMRI Findings. Kluver Academic Press, Boston, MA, pp. 41–59.
Kecskes-Kovacs, K., Sulykos, I., Czigler, I. (2013) Visual mismatch negativity is sensitive to symmetry as a perceptual category. Eur. J. Neurosci. 37, 662–667.
Kimura, M., Schroger, E., Czigler, I. (2011) Visual mismatch negativity and its importance in visual cognitive sciences. Neuroreport 22, 669–673.
Kimura, M., Kondo, H., Ohira, H., Schroger, E. (2012) Unintentional temporal context-based prediction of emotional faces: an electrophysiological study. Cereb. Cortex 22, 1774–1785.
Kleisner, K., Priplatova, L., Frost, P., Flegr, J. (2013) Trustworthy-looking face meets brown eyes. PLoS One 8, e53285.
Kovacs-Balint, Z., Bereczkei, T., Hernadi, I. (2013) The telltale face: Possible mechanisms behind defector and cooperator recognition revealed by emotional facial expression metrics. Brit. J. Psychol. 104, 563–576.
Li, X., Lu, Y., Sun, G., Gao, L., Zhao, L. (2012) Visual mismatch negativity elicited by facial expressions: new evidence from the equiprobable paradigm. Behav. Brain Funct. 8, 7.
Liddell, B. J., Williams, L. M., Rathjen, J., Shevrin, H., Gordon, E. (2004) A temporal dissociation of subliminal versus supraliminal fear perception: an event-related potential study. J. Cogn. Neurosci. 16, 479–486.
Marzi, T., Righi, S., Ottonello, S., Cincotta, M., Viggiano, M. P. (2012) Trust at first sight: evidence from ERPs. Soc. Cogn. Affect Neurosci. 9, 63–72.
Naatanen, R., Paavilainen, P., Rinne, T., Alho, K. (2007) The mismatch negativity (MMN) in basic research of central auditory processing: a review. Clin. Neurophysiol. 118, 2544–2590.
Oosterhof, N. N., Todorov, A. (2008) The functional basis of face evaluation. Proc. Natl Acad. Sci. USA 105, 11087–11092.
Pazo-Alvarez, P., Amenedo, E., Lorenzo-Lopez, L., Cadaveira, F. (2004) Effects of stimulus location on automatic detection of changes in motion direction in the human brain. Neurosci. Lett. 371, 111–116.
Rezlescu, C., Duchaine, B., Olivola, C. Y., Chater, N. (2012) Unfakeable facial configurations affect strategic choices in trust games with or without information about past behavior. PLoS One 7, e34293.
Schmidt, K. L., Cohn, J. F. (2001) Human facial expressions as adaptations: Evolutionary questions in facial expression research. Yearb. Phys. Anthropol. 44, 3–24.
Shen, X. B., Wu, Q., Fu, X. L. (2012) Effects of the duration of expressions on the recognition of microexpressions. J. Zhejiang Univ. Sci. B 13, 221–230.
Stagg, C., Hindley, P., Tales, A., Butler, S. (2004) Visual mismatch negativity: the detection of stimulus change. Neuroreport 15, 659–663.
Stefanics, G., Kimura, M., Czigler, I. (2011) Visual mismatch negativity reveals automatic detection of sequential regularity violation. Front. Hum. Neurosci. 5, 46.
Stefanics, G., Czigler, I. (2012) Automatic prediction error responses to hands with unexpected laterality: An electrophysiological study. Neuroimage 63, 253–261.
Stefanics, G., Csukly, G., Komlosi, S., Czobor, P., Czigler, I. (2012) Processing of unattended facial emotions: A visual mismatch negativity study. Neuroimage 59, 3042–3049.
Todorov, A., Baron, S. G., Oosterhof, N. N. (2008) Evaluating face trustworthiness: a model based approach. Soc. Cogn. Affect Neurosci. 3, 119–127.
Todorov, A., Pakrashi, M., Oosterhof, N. N. (2009) Evaluating faces on trustworthiness after minimal time exposure. Soc. Cognition 27, 813–833.
Willis, J., Todorov, A. (2006) First impressions: Making up your mind after a 100-ms exposure to a face. Psychol. Sci. 17, 592–598.
Yang, D., Qi, S., Ding, C., Song, Y. (2011) An ERP study on the time course of facial trustworthiness appraisal. Neurosci. Lett. 496, 147–151.
Zahavi, A. (1993) The fallacy of conventional signalling. Philos. Trans. R. Soc. Lond. B Biol. Sci. 340, 227–230.
Zhao, L., Li, J. (2006) Visual mismatch negativity elicited by facial expressions under non-attentional condition. Neurosci. Lett. 410, 126–131.
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Kovács-Bálint, Z., Stefanics, G., Trunk, A. et al. Automatic Detection of Trustworthiness of the Face: A Visual Mismatch Negativity Study. BIOLOGIA FUTURA 65, 1–12 (2014). https://doi.org/10.1556/ABiol.65.2014.1.1
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DOI: https://doi.org/10.1556/ABiol.65.2014.1.1