A psychophysiological analysis of inhibitory motor control in the stop-signal paradigm

Boxtel, G.J.M. van; Molen, Maurits W. van der; Jennings, J. Richard; Brunia, C.H.M.

doi:10.1016/s0301-0511(01)00117-x

Cited by 249 publications

(202 citation statements)

References 48 publications

(98 reference statements)

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“…In an ERP experiment, Anguera and Gazzaley (2012) studied age-related modulations of the N2 and P3 associated with inhibition in a visual Stop-signal task and determined that the older adults' greater SSRT was associated with the P3 latency but not with the P3 amplitude or the N2 latency or amplitude. In their experiment with older adults (N=20; M±SD=70.6±6.7 years old; 9 women), the Stop-signal N2 and P3 were qualitatively comparable to previous ERP studies that used a visual Stop-signal task with young adults (van Boxtel et al 2001;Kok et al 2004;Ramautar et al 2004). However, in contrast with the results that have generally been reported for young adults, the N2 and P3 amplitude was not greater in successful compared with unsuccessful inhibition trials.…”

Section: Age-related Inhibition Changes Between 200 and 400 Mssupporting

confidence: 81%

“…Several of these studies have examined the relevance of inhibitory processes in normal aging (Mayas et al 2012;Turner and Spreng 2012;Haring et al 2013;Wostmann et al 2013), as well as a variety of clinical conditions, such as Alzheimer's disease (AD; Collette et al 2009; C. Thomas et al 2010;Cheng et al 2012), mild cognitive impairment (MCI; Belleville et al 2007), traumatic brain injury (TBI; Dimoska-Di Marco et al 2011), depression (Dai and Feng 2011;Bobb et al 2012), anxiety (Robinson et al 2013), schizophrenia (Hughes et al 2012), fibromyalgia (Mercado et al 2013), attention deficithyperactivity disorder (ADHD; Senderecka et al 2012), alcoholism (Padilla et al 2011) and psychopathy (Verona et al 2012). Thomas et al 2009); Stop-signal (Bekker et al 2005;van Boxtel et al 2001);Eriksen Flanker (Wild-Wall et al 2008;Neuhaus et al 2007); Stroop (Hanslmayr et al 2008); and NP (Gibbons et al 2006;Kathmann et al 2006). …”

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confidence: 99%

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Event-Related Brain Potentials in the Study of Inhibition: Cognitive Control, Source Localization and Age-Related Modulations

et al. 2014

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In the previous fifteen years, a variety of experimental paradigms and methods have been employed to study inhibition. In the current review, we analyze studies that have used the high temporal resolution of the event-related potential (ERP) technique to identify the temporal course of inhibition to understand the various processes that contribute to inhibition. ERP studies with a focus on normal aging are specifically analyzed because they contribute to a deeper understanding of inhibition. Three time windows are proposed to organize the ERP data collected using inhibition paradigms: the 200 ms period following stimulus onset; the period between 200 and 400 ms after stimulus onset; and the period between 400 and 800 ms after stimulus onset. In the first 200 ms, ERP inhibition research has primarily focused on N1 and P1 as the ERP components associated with inhibition. The inhibitory processing in the second time window has been associated with the N2 and P3 ERP components. Finally, in the third time window, inhibition has primarily been associated with the N400 and N450 ERP components. Source localization studies are analyzed to examine 2 the association between the inhibition processes that are indexed by the ERP components and their functional brain areas. Inhibition can be organized in a complex functional structure that is not constrained to a specific time point but, rather, extends its activity through different time windows. This review characterizes inhibition as a set of processes rather than a unitary process.

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Section: Age-related Inhibition Changes Between 200 and 400 Mssupporting

confidence: 81%

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confidence: 99%

Event-Related Brain Potentials in the Study of Inhibition: Cognitive Control, Source Localization and Age-Related Modulations

et al. 2014

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“…The processes leading up to response selection in stopsignal and go/no-go paradigms are typically reflected in the N2 and the P3. The N2 was previously linked to response inhibition based on the relationship between its amplitude with inhibition efficiency (van Boxtel, van der Molen, Jennings & Brunia, 2001). However, later studies have shown that it is also present when a response is required, for example when go trials are unexpected or when maximal force go trials are compared with normal force go trials (e.g.…”

Section: Methodsmentioning

confidence: 99%

How to withhold or replace a prepotent response: An analysis of the underlying control processes and their temporal dynamics

Elchlepp

Verbruggen

2017

Biological Psychology

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“…This fi nding is signifi cant because ERP studies examining motor stopping consistently report enhanced N2 components for stopping, such as the no-go N2 (Bekker et al, 2005 ;Bokura et al, 2001 ;Donkers & van Boxtel, 2004 ;Eimer, 1993 ;Falkenstein et al, 1999 ;Garavan et al, 2002 ) and the stop signal N2 (Band & van Boxtel, 1999 ;Logan et al, 1994 ;Schmajuk et al, 2006 ;van Boxtel et al, 2001 ;Ramautar et al, 2004 ) . For example, Mecklinger et al ( 2009 ) found signifi cantly larger N2 for Suppress items in comparison to Respond items, and, importantly found this effect to be especially pronounced for Suppress items that were later forgotten on an independent probe test.…”

Section: Electrophsyiological Indices Of Retrieval Suppressionmentioning

confidence: 99%

Towards a Cognitive and Neurobiological Model of Motivated Forgetting

Anderson

Huddleston

2011

Nebraska Symposium on Motivation

151

149

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Historically, research on forgetting has been dominated by the assumption that forgetting is passive, refl ecting decay, interference, and changes in context. This emphasis arises from the pervasive assumption that forgetting is a negative outcome. Here, we present a functional view of forgetting in which the fate of experience in memory is determined as much by motivational forces that dictate the focus of attention as it is by passive factors. A central tool of motivated forgetting is retrieval suppression, a process whereby people shut down episodic retrieval to control awareness. We review behavioral, neurobiological, and clinical research and show that retrieval suppression leads us to forget suppressed experiences. We discuss key questions necessary to address to develop this model, relationships to other forgetting phenomena, and the implications of this research for understanding recovered memories. This work provides a foundation for understanding how motivational forces infl uence what we remember of life experience.

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A psychophysiological analysis of inhibitory motor control in the stop-signal paradigm

Cited by 249 publications

References 48 publications

Event-Related Brain Potentials in the Study of Inhibition: Cognitive Control, Source Localization and Age-Related Modulations

Event-Related Brain Potentials in the Study of Inhibition: Cognitive Control, Source Localization and Age-Related Modulations

How to withhold or replace a prepotent response: An analysis of the underlying control processes and their temporal dynamics

Towards a Cognitive and Neurobiological Model of Motivated Forgetting

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