“Wanted!” The effects of reward on face recognition: electrophysiological correlates

Marini, Francesco; Marzi, Tessa; Viggiano, Maria Pia

doi:10.3758/s13415-011-0057-7

Cited by 35 publications

(38 citation statements)

References 96 publications

(123 reference statements)

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“…Unexpectedly, however, this effect was limited to faces and did not extend to scene stimuli. While previous studies on similar tasks have used either faces (Marini et al, 2011) or scenes (Bunzeck et al, 2009) our results seem to suggest that when being used within one experimental session reward can have selective effects on reaction-times. This might, for instance, relate to differences in the biological significance of both stimulus categories (Park et al, 2010) and remains to be further explored.…”

Section: Discussioncontrasting

confidence: 43%

“…4D). Indeed, earlier EEG studies on the link between reward and declarative memory have found similar response patterns (Gruber and Otten, 2010;Marini et al, 2011) and they suggest that neural activity over prefrontal sensors plays a critical role for improved learning by reward.…”

Section: Discussionmentioning

confidence: 90%

“…We expected early category sensitive ERF-components (i.e., M100 and M170) to be increased by reward (i.e., higher amplitudes in experiment 1 vs. 2) and that this effect could be source localized to the lateral occipital cortex (M100) and fusiform gyrus (M170). Furthermore, we also predicted improved recognition memory by reward prospect (Adcock et al, 2006) and further explored the temporal characteristics of the underlying neural mechanisms (Gruber and Otten, 2010;Marini et al, 2011).…”

Section: Introductionmentioning

confidence: 99%

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Reward modulates the neural dynamics of early visual category processing

Apitz

Bunzeck

2012

NeuroImage

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Section: Discussioncontrasting

confidence: 43%

Section: Discussionmentioning

confidence: 90%

Section: Introductionmentioning

confidence: 99%

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Reward modulates the neural dynamics of early visual category processing

Apitz

Bunzeck

2012

NeuroImage

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“…With respect to the target, this enhanced N2 also indicates that participants were able to rapidly boost early processing of relevant information if they are cued with reward information. The early occipital brain activity was again paired with a frontal positivity and was followed by a notably more frontal P3 wave, perhaps a P3a like component (Luck, 2004; Luck & Kappenman, 2011; Polich, 2007), which would appear to reflect the reward-related boosting to improve processing of the target (Krebs et al, 2013; Goldstein et al, 2006; Marini, Marzi & Viggiano, 2011; Wu & Zhou, 2009). …”

Section: Discussionmentioning

confidence: 99%

Utilization of reward-prospect enhances preparatory attention and reduces stimulus conflict

Berg

Krebs

Lorist

et al. 2014

Cogn Affect Behav Neurosci

113

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The prospect of gaining money is an incentive widely at play in the real world. Such monetary motivation might have particularly strong influence when the cognitive system is challenged, such as when needing to process conflicting stimulus inputs. Here, we employed manipulations of reward-prospect and attentional-preparation levels in a cued-Stroop stimulus-conflict task, along with the high temporal resolution of electrical brain recordings, to provide insight into the mechanisms by which reward-prospect and attention interact and modulate cognitive-task performance. In this task the cue indicated whether or not the subject needed to prepare for an upcoming Stroop stimulus, and if so, whether there was the potential for monetary reward (dependent on performance on that trial). Both cued-attention and cued-reward-prospect enhanced preparatory neural activity, as reflected by increases in the hallmark attention-related negative-polarity ERP slow wave (CNV) and reductions in oscillatory Alpha activity, which was followed by enhanced processing of the subsequent Stroop stimulus. In addition, similar modulations of preparatory neural activity (larger CNVs and reduced Alpha) predicted faster versus slower response times (RTs) to the subsequent target stimulus, consistent with such modulations reflecting trial-to-trial variations in attention. Particularly striking were the individual differences in the utilization of reward-prospect information. In particular, the size of the reward effects on the preparatory neural activity correlated across-subjects with the degree to which reward-prospect both facilitated overall task performance (faster RTs) and reduced conflict-related behavioral interference. Thus, the prospect of reward appears to recruit attentional preparation circuits to enhance processing of task-relevant target information.

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“…The incentive role of reward and its effects on behavior can be achieved through modulations of attentional and cognitive control. These modulations include enhancing attentional preparation under conditions of reward prospect (Van den Berg et al, 2014), enhanced recruitment of cognitive resources (Krebs, Boehler, Roberts, Song, & Woldorff, 2012; Vassena, Silvetti, Boehler, Achten, Fias et al, 2014), reduction of conflict (Padmala & Pessoa, 2011; Krebs, Boehler, & Woldorff, 2010), stopping-induced stimulus devaluation (Wessel, O'Doherty, Berkebile, Linderman & Aron, 2014), reactive response inhibition (Boehler, Schevernels, Hopf, Stoppel, & Krebs, 2014), and optimized memory encoding (Marini, Marzi, & Viggiano, 2011). Moreover, the Eriksen flanker task in association with monetary rewards has been already used in previous studies of selective attention (Seifert et al 2006; Hubner & Schlosser, 2010), cognitive control (Braem, Hickey, Duthoo & Notebaert, 2014) and conflict adaptation (van Steenbergen, Band & Hommel, 2009; Braem, Vertguts, Roggeman & Notebaert, 2012), suggesting the usefulness of this paradigm for the goals of the present study.…”

Section: Introductionmentioning

confidence: 99%

Reward prospect interacts with trial-by-trial preparation for potential distraction

2015

Self Cite

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When attending for impending visual stimuli, cognitive systems prepare to identify relevant information while ignoring irrelevant, potentially distracting input. Recent work (Marini et al., 2013) showed that a supramodal distracter-filtering mechanism is invoked in blocked designs involving expectation of possible distracter stimuli, although this entails a cost (distraction-filtering cost) on speeded performance when distracters are expected but not presented. Here we used an arrow-flanker task to study whether an analogous cost, potentially reflecting the recruitment of a specific distraction-filtering mechanism, occurs dynamically when potential distraction is cued trial-to-trial (cued distracter-expectation cost). In order to promote the maximal utilization of cue information by participants, in some experimental conditions the cue also signaled the possibility of earning a monetary reward for fast and accurate performance. This design also allowed us to investigate the interplay between anticipation for distracters and anticipation of reward, which is known to engender attentional preparation. Only in reward contexts did participants show a cued distracter-expectation cost, which was larger with higher reward prospect and when anticipation for both distracters and reward were manipulated trial-to-trial. Thus, these results indicate that reward prospect interacts with the distracter expectation during trial-by-trial preparatory processes for potential distraction. These findings highlight how reward guides cue-driven attentional preparation.

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“Wanted!” The effects of reward on face recognition: electrophysiological correlates

Cited by 35 publications

References 96 publications

Reward modulates the neural dynamics of early visual category processing

Reward modulates the neural dynamics of early visual category processing

Utilization of reward-prospect enhances preparatory attention and reduces stimulus conflict

Reward prospect interacts with trial-by-trial preparation for potential distraction

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