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Thursday, August 20, 2009

Francisco Barceló - The emotional consequences of being distracted

Nice geeky little neuroscience article.

Clinical Neuropsychology Research Group, Universitat de les Illes Balears, Palma de Mallorca, Spain


A commentary on
Response inhibition is linked to emotional devaluation: behavioral and electrophysiological evidence

by Monica Kiss, Jane E. Raymond, Nikki Westoby, Anna C. Nobre and Martin Eimer

Emotionally salient events have long been shown to engage attentional resources more than emotionally neutral events (Vuilleumier, 2005). In contrast, the reciprocal effect that attention also influences emotion has remained mostly unexplored in spite of everyday intuition. Imagine yourself sitting at your desk, your thoughts immersed in formulating some complex brain theory. Suddenly, the door opens and an unknown face sticks out asking: Dr. Petersµ – No, wrong office – you reply. Even if the smiling face quickly retreats in silence, it already captured your attention away, and briefly interrupted the smooth flow of your thoughts and actions. Some may find this distractor effect displeasing, particularly while handling a difficult problem, or if the interruption occurs at frequent intervals. In a research article published in Frontiers in Human Neuroscience, Kiss et al. (2008) have made an original contribution to the field by means of a novel methodology to examine the links between attentional selection and emotional valuation.

The authors tested the hypothesis that human faces would be emotionally devalued and judged as less trustworthy as a consequence of having been designated as distractors – hence requiring no overt motor response – in a previous selective attention procedure. Visual targets and distractors consisted of exemplars of human faces with distinct racial features, i.e., Caucasian versus Asian faces. Trial blocks involved two stages. Firstly, participants saw a short series of novel faces, to which they responded by pressing a button to faces of one race, and refrained from responding to faces of the other race (Figure 1). Secondly, about half-a-minute later, the same faces were judged for trustworthiness in a 4-point rating scale. Each face appeared only twice, once at response selection, and once at the affective evaluation stage, to control for familiarity effects. The response assignment of target (Go) and distractor (Nogo) racial features was reversed halfway through the experiment.

Importantly, the neural substrates of distractor devaluation were also examined. As an index of prefrontal inhibitory control, the authors measured a negative-going brain potential peaking between 250 and 350ms after the onset of Nogo distractors (often termed "Nogo N2"). The phasic negativity peaks at midfrontal scalp regions and has been considered as an -electrophysiological correlate of anterior cingulate function (Nieuwenhuis et al., 2003). The intensity of Nogo N2 potentials to distractor faces was larger for faces that were rated as less trustworthy than for faces judged more positively. This indicated that the efficiency of prefrontal inhibitory control triggered by distractor faces covaried with their subsequent affective devaluation.

The phenomenon of distractor devaluation was explained from a general inhibition-based account by which the same type of inhibitory tagging responsible for top-down cognitive control could be generalized to emotional as well as "perceptual, higher cognitive, or response-related stages of processing" (Kiss et al., 2008). The -proposal stands on evidence that distractor devaluation occurs in conditions requiring strong attentional inhibition i.e., when targets and distractors share some perceptual features (Figure 1; Fenske and Raymond, 2006). In spite of its parsimony, however, the account does not clarify why efficient response inhibition to distractors does not necessarily prevent the disruption of concurrent thoughts and actions. Instead, probabilistic stimulus-response contextual associations can explain behavioral distraction and related brain responses in terms of transient overloads in working memory capacity induced by the distractors (Barceló et al., 2008). If distractor faces induced interference and response conflict, there is possibility of transient dips being caused in cognitive control whose resolution demands prefrontal resources. From this perspective, distractor devaluation and the -midfrontal negativities might relate to the rather -displeasing feeling of being -temporary out-of-control. This -interpretation concurs with the -clustering of -emotional and attentional symptoms observed in some frontal lobe patients (e.g., distractibility, disinhibition and irritability).

This study paves the way to elucidate these as well as several other relevant issues on the way in which attention influences emotion: How does novelty and familiarity modulate distractor devaluationµ What are the specific neural substrates and cognitive mechanismsµ Can the attentional biases on emotional valuation be extended to everyday life situations such as ethnic empathy and prejudice, or sibling jealousyµ Such questions will surely open up rich venues for future research.

Figure 1 | Integrative model of prefrontal function (modified from Miller, 2000). Kiss etal."s (2008) proposal could be framed within a general model of prefrontal inhibitory control by which distractor devaluation might result from attention–emotion interactions at various levels within a hierarchy of neural representations. The blue circles denote inhibitory tagging through Nogo pathways encompassing perceptual (s2), motor (r0), and prefrontal cortical units (i.e., anterior cingulate), as well as through lower-order intervening sensorimotor pathways involving subcortical and/or other posterior cortical structures. Here a color face designates the task-relevant pathways for perception (s1) and action selection (r1). Note that distractor and target faces share perceptual features (s3) that can induce interference among competing pathways at higher levels in the hierarchy. The probabilistic activation of Go and Nogo pathways determines the relative recruitment of prefrontal resources (Barceló and Knight, 2007), as well as the intensity of midfrontal negativities and related positive-going brain potentials (Nieuwenhuis et al., 2003). This schematic suggests that efficient response inhibition likely depends on the monitoring of response conflicts, resulting in working memory overload and transient loss of cognitive control induced by the distractors (Barceló et al., 2008).

References
Barceló, F., and Knight, R. T. (2007). An information theoretical approach to contextual processing in the human brain: evidence from prefrontal lesions. Cereb. Cortex 17, i51–i60.

Barceló, F., Perianez, J. A., and Nyhus, E. (2008). An information theoretical approach to task--switching: evidence from cognitive brain -potentials in humans. Front. Hum. Neurosci. 1, 13. doi: 10.3389/ neuro.09/013.2007.

Fenske, M. J., and Raymond, J. E. (2006). Affective -influences of selective attention. Curr. Dir. Psychol. Sci. 15, 312–316.

Kiss, M., Raymond, J. E., Westoby, N., Nobre, A.C., and Eimer, M., 2008. Response inhibition is linked to emotional devaluation: behavioural and -electrophysiological evidence. Front. Hum. Neurosci. 2, 13. doi: 10.3389/neuro.3309.3013.2008.

Miller, E. K. (2000). The prefrontal cortex and cognitive control. Nat. Rev. Neurosci. 1, 59–65.

Nieuwenhuis, S., Yeung, N., van den Wildenberg, W., and Ridderinkhof, K. R. (2003). Electrophysiological correlates of anterior cingulate function in a go/no-go task: effects of response conflict and trial type-frequency. Cogn. Affect. Behav. Neurosci. 3, 17–26.

Vuilleumier, P. (2005). How brains beware: neural mechanisms of emotional attention. Trends Cogn. Sci. 9, 585–594.



Citation: Barceló F (2009). The emotional consequences of being distracted Front. Neurosci. (2009) 3, 10: 6–7. doi: 10.3389/neuro.01.010.2009

Received date: 26 February 2009;

Published online: 01 May 2009

Copyright: © 2009 Barceló. This is an open-access publication subject to an exclusive license agreement between the authors and the Frontiers Research Foundation, which permits unrestricted use, distribution, and reproduction in any medium, provided the original authors and source are credited.

*Correspondence: Francisco Barceló, Clinical Neuropsychology Research Group, Universitat de les Illes Balears, Palma de Mallorca, Spain; email:f.barcelo@uib.es

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