Control adjustments in speaking: Electrophysiology of the Gratton effect in picture naming

Shitova, Natalia; Roelofs, Ardi; Schriefers, Herbert; Bastiaansen, Marcel C. M.; Schoffelen, Jan‐Mathijs

doi:10.1016/j.cortex.2017.04.017

Cited by 24 publications

(34 citation statements)

References 54 publications

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“…Since congruent trials in Stroop map onto the same representation, while incongruent trials map onto two different representations, the general pattern of N450 matches the N400-like effects in PWI studies with identity vs. semantic distractors (Piai et al, 2012;Shitova et al, 2017): The addition of a new representation (the non-identity distractor) induces more negativity on N450 and the ERPs observed within the N400 window in PWI, blocked cyclic and continuous naming paradigms, suggesting a possible common origin.…”

Section: Monitoring and Controlsupporting

confidence: 55%

“…Compared to the early window, the findings in the N400 window have been reported more uniformly. PWI studies that compared semantically related to identity distractors have found more negative waveforms in the N400 time window for the semantically related distractors (Piai, Roelofs, & van der Meij, 2012;Shitova, Roelofs, Schriefers, Bastiaansen, & Schoffelen, 2017). It is important to note that the "identity" distractor does not activate a separate representation from that of the target.…”

Section: Electrophysiological Studiesmentioning

confidence: 99%

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A critical review of the behavioural, neuroimaging, and electrophysiological studies of co-activation of representations during word production

Nozari¹,

Pinet²

2019

Preprint

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A large body of behavioral, neuroimaging, and electrophysiological studies have investigated the consequences of co-activation of representations during word production. Despite such an amazing body of empirical data, it remains unclear how the production system handles co-activated items. In this paper, we review this evidence in a systematic way, and point out three common problems in the interpretations attached to these data. We then discuss alternative approaches which might be more fruitful in understanding the links between such data and the processes of spreading activation, selection, monitoring and control in language production.

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Section: Monitoring and Controlsupporting

confidence: 55%

Section: Electrophysiological Studiesmentioning

confidence: 99%

A critical review of the behavioural, neuroimaging, and electrophysiological studies of co-activation of representations during word production

Nozari¹,

Pinet²

2019

Preprint

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“…Despite various explanations, all agree that this effect (often called conflict adaptation) reflects dynamic reactive control, once stimulus-repetition and learning confounds are removed (Duthoo & Notebaert, 2012). Similar adaptation patterns have emerged in production using a Picture-Word Interference (PWI) task Shitova, Roelofs, Schriefers, Bastiaansen, & Schoffelen, 2017), when individuals must name images (e.g., truck) despite a semantically distracting word superimposed on it (e.g., car). This finding suggests that, similar to nonverbal tasks, language production is regulated in real time via a monitoring-control loop.…”

Section: Forward Models Of Monitoringmentioning

confidence: 90%

Monitoring and Control in Language Production

Nozari

Novick

2017

Curr Dir Psychol Sci

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Language research has provided insight into how speakers translate a thought into a sequence of sounds that ultimately becomes words, phrases, and sentences. Despite the complex stages involved in this process, relatively little is known about how we avoid and handle production and comprehension errors that would otherwise impede communication. We review current research on the mechanisms underlying monitoring and control of the language system, especially production, with particular emphasis on whether such monitoring is issued by domain-general or domain-specific procedures.

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“…However, language production often involves cognitive control 1 . For instance, many behavioral and neuroimaging studies have demonstrated that language production involves conflict monitoring and control (Freund, Gordon, & Nozari, 2016; Gauvin, De Baene, Brass, & Hartsuiker, 2016; Hanley, Cortis, Budd, & Nozari, 2016; Nozari, Dell, & Schwartz, 2011; Nozari & Novick, 2017; Riès, Janssen, Dufau, Alario, & Burle, 2011; Shitova, Roelofs, Schriefers, Bastiaansen, & Schoffelen, 2017; Van Maanen & Van Rijn, 2010), engaging language related regions such as left middle temporal cortex (de Zubicaray, McMahon, & Howard, 2015; de Zubicaray, Wilson, McMahon, & Muthiah, 2001) and domain general regions such as pre supplementary motor area, anterior cingulate, and ventrolateral prefrontal cortex (Nozari & Novick, 2017). Language production also involves inhibitory control (Shao, Meyer, & Roelofs, 2013; Shao, Roelofs, Acheson, & Meyer, 2014; Shao, Roelofs, & Meyer, 2012; Tydgat, Diependaele, Hartsuiker, & Pickering, 2012; Tydgat, Stevens, Hartsuiker, & Pickering, 2011), and other types of control processes (Nozari, Freund, Breining, Rapp, & Gordon, 2016).…”

Section: Introductionmentioning

confidence: 99%

Task difficulty modulates brain-behavior correlations in language production and cognitive control: Behavioral and fMRI evidence from a phonological go/no-go picture-naming paradigm

Zhang

Eppes

Beatty-Martínez

et al. 2018

Cogn Affect Behav Neurosci

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Language production and cognitive control are complex processes that involve distinct yet interacting brain networks. However, the extent to which these processes interact and their neural bases have not been thoroughly examined. Here, we investigated the neural and behavioral bases of language production and cognitive control via a phonological go/no-go picture-naming task. Naming difficulty and cognitive control demands (i.e., conflict monitoring and response inhibition) were manipulated by varying the proportion of naming trials (go trials) and inhibition trials (no-go trials) across task runs. The results demonstrated that as task demands increased, participants' behavioral performance declined (i.e., longer reaction times on naming trials, more commission errors on inhibition trials) whereas brain activation generally increased. Increased activation was found not only within the language network but also in domain-general control regions. Additionally, right superior and inferior frontal and left supramarginal gyri were sensitive to increased task difficulty during both language production and response inhibition. We also found both positive and negative brain-behavior correlations. Most notably, increased activation in sensorimotor regions, such as precentral and postcentral gyri, was associated with better behavioral performance, in both successful picture naming and successful inhibition. Moreover, comparing the strength of correlations across conditions indicated that the brain-behavior correlations in sensorimotor regions that were associated with improved performance became stronger as task demands increased. Overall, our results suggest that cognitive control demands affect language production, and that successfully coping with increases in task difficulty relies on both language-specific and domain-general cognitive control regions.

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Control adjustments in speaking: Electrophysiology of the Gratton effect in picture naming

Cited by 24 publications

References 54 publications

A critical review of the behavioural, neuroimaging, and electrophysiological studies of co-activation of representations during word production

A critical review of the behavioural, neuroimaging, and electrophysiological studies of co-activation of representations during word production

Monitoring and Control in Language Production

Task difficulty modulates brain-behavior correlations in language production and cognitive control: Behavioral and fMRI evidence from a phonological go/no-go picture-naming paradigm

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