The effects of ignored versus foveated cues upon inhibition of return: An event-related potential study

Satel, J; Hilchey, Matthew D.; Wang, Zhiguo; Story, Ross; Klein, Raymond M.

doi:10.3758/s13414-012-0381-1

Cited by 33 publications

(54 citation statements)

References 36 publications

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“…Finally, in investigations of IOR using event-related potential (ERP) technology, reductions in P1 (an early sensory component) occur under conditions that elicit the motoric as well as those that elicit the visual form of IOR. However, these P1 modulations correlate with behavior only when the oculomotor system is suppressed (Satel, Hilchey, Wang, Story, & Klein, 2013). The distinction between these two forms of IOR is also supported by neurophysiological evidence that they are differentially affected by brain damage and rTMS manipulations, in which double dissociations have been observed (Bourgeois, Chica, Migliaccio, Thiebault de Schotten, & Bartolomeo, 2012;Bourgeois, Chica, Valero-Cabré, & Bartolomeo, 2013).…”

Section: Inhibition Of Returnmentioning

confidence: 52%

Memory instruction interacts with both visual and motoric inhibition of return

Thompson

Taylor

2015

Atten Percept Psychophys

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In the item-method directed forgetting paradigm, the magnitude of inhibition of return (IOR) is larger after an instruction to forget (F) than after an instruction to remember (R). In the present experiments, we further investigated this increased magnitude of IOR after F than after R memory instructions, to determine whether this F> R IOR pattern occurs only for the motoric form of IOR, as predicted, or also for the visual form. In three experiments, words were presented in one of two peripheral locations, followed by either an F or an R memory instruction. Then, a target appeared either at the same location as the previous word or at the other location. In Experiment 1, participants maintained fixation throughout the trial until the target appeared, at which point they made a saccade to the target. In Experiment 2, they maintained fixation throughout the entire trial and made a manual localization response to the target. The F> R IOR difference in reaction times occurred for both the saccadic and manual responses, suggesting that memory instructions modify both motoric and visual forms of IOR. In Experiment 3, participants made a perceptual discrimination response to report the identity of a target while the eyes remained fixed. The F> R IOR difference also occurred for these manual discrimination responses, increasing our confidence that memory instructions modify the visual form of IOR. We relate our findings to postulated differences in attentional withdrawal following F and R instructions and consider the implications of the findings for successful forgetting.

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Section: Inhibition Of Returnmentioning

confidence: 52%

Memory instruction interacts with both visual and motoric inhibition of return

Thompson

Taylor

2015

Atten Percept Psychophys

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“…A wide range of approaches and tools [spanning behavior (Posner & Cohen, ), development (Clohessy, Posner, Rothbart, & Vecera, ), lesion patients (Sapir et al., ), functional magnetic resonance imaging (fMRI; Mayer, Dorflinger, Rao, & Seidenberg, ), extracellular recording (Dorris, Klein, Everling, & Munoz, ), transcranial magnetic stimulation (TMS; van Koningsbruggen, Gabay, Sapir, Henik, & Rafal, ), and electroencephalography (EEG; McDonald, Ward, & Kiehl, )] have been used to further evaluate the neural mechanisms underlying IOR when responses to visual signals are discouraged (for a review, see Klein, ). Among the neuroimaging techniques that have been applied to IOR, EEG methods and the event‐related potentials (ERPs) they measure have featured prominently in many investigations involving human subjects (for reviews, see Prime & Ward, ; Satel, Hilchey, Wang, Story, & Klein, ). Using ERPs to investigate attentional phenomena, a number of studies have revealed that several relatively early ERP components can be modulated by attention.…”

Section: Neural Correlates Of Iormentioning

confidence: 99%

“…Satel et al. () demonstrated that, although such target‐elicited P1 reductions were correlated with the magnitude of the IOR effect when the oculomotor system was forbidden from responding to peripheral onset events, there was no such correlation when saccades were made to the cues. As such, and in line with our motivation for conducting the present investigation (discussed in the next section), it remains possible—if not likely—that the neural substrates underlying IOR are different when oculomotor responding is imperative and not actively discouraged.…”

Section: Neural Correlates Of Iormentioning

confidence: 99%

In search of a reliable electrophysiological marker of oculomotor inhibition of return

Satel¹,

Hilchey

Wang

et al. 2014

Psychophysiology

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Inhibition of return (IOR) operationalizes a behavioral phenomenon characterized by slower responding to cued, relative to uncued, targets. Two independent forms of IOR have been theorized: input-based IOR occurs when the oculomotor system is quiescent, while output-based IOR occurs when the oculomotor system is engaged. EEG studies forbidding eye movements have demonstrated that reductions of target-elicited P1 components are correlated with IOR magnitude, but when eye movements occur, P1 effects bear no relationship to behavior. We expand on this work by adapting the cueing paradigm and recording event-related potentials: IOR is caused by oculomotor responses to central arrows or peripheral onsets and measured by key presses to peripheral targets. Behavioral IOR is observed in both conditions, but P1 reductions are absent in the central arrow condition. By contrast, arrow and peripheral cues enhance Nd, especially over contralateral electrode sites.

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“…Another alternative explanation was that the early posterior Nd might reflect sensory refractoriness, which could be very common in spatial cueing studies (McDonald et al, 1999). Recently, Nd is considered as a potential neutral marker for IOR, which refers to a reduction of cued location as compared to uncued location (Satel et al, 2013, 2014). However, there was no agreed explanation of the underlying mechanism of Nd.…”

Section: Discussionmentioning

confidence: 99%

Inhibition of Return Is Modulated by Negative Stimuli: Evidence from Subliminal Perception

et al. 2017

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Inhibition of return (IOR) is considered as a “blindness mechanism” that emotional stimuli have no impact on it. Most previous studies suggested that IOR was not modulated by emotional cues. However, one key question they ignored was that only supraliminal presentation of emotional stimuli was used in their experiments. The present experiment is aimed at exploring the possible interaction between the IOR effect and subliminal emotional process. We manipulated three different kinds of valence strength of negative stimuli (high negative, HN; moderate negative, MN; low negative, LN) which were presented under the subliminal perception level and an event-related potentials (ERPs) recording was adopted. The results showed that, compared to MN and HN, the IOR effect triggered by peripheral cues was more significant for LN with aspects of behavioral and electrophysiological data (a reduction P1 effect, more negative on cued trials than on uncued trials for both early posterior Nd and Nd components). This indicated that IOR can be modulated by emotionally relevant stimuli. The automatic processing that was triggered by subliminally negative stimuli of peripheral cues had an influence on the shifting of spatial attention that was triggered by IOR. These two mechanisms may occur in the perceptual stage simultaneously.

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The effects of ignored versus foveated cues upon inhibition of return: An event-related potential study

Cited by 33 publications

References 36 publications

Memory instruction interacts with both visual and motoric inhibition of return

Memory instruction interacts with both visual and motoric inhibition of return

In search of a reliable electrophysiological marker of oculomotor inhibition of return

Inhibition of Return Is Modulated by Negative Stimuli: Evidence from Subliminal Perception

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