Neural basis of the Stroop interference task: Response competition or selective attention?

LARISSA A. MEAD; ANDREW R. MAYER; JULIE A. BOBHOLZ; SCOTT J. WOODLEY; JOSEPH M. CUNNINGHAM; THOMAS A. HAMMEKE; STEPHEN M. RAO

doi:10.1017/S1355617702860015

Abstract

Previous neuroimaging studies of the Stroop task have postulated that the anterior cingulate cortex (ACC) plays a critical role in resolution of the Stroop interference condition. However, activation of the ACC is not invariably seen and appears to depend on a variety of methodological factors, including the degree of response conflict and response expectancies. The present functional MRI study was designed to identify those brain areas critically involved in the interference condition. Healthy subjects underwent a blocked-trial design fMRI experiment while responding to 1 of 3 stimulus conditions: (1) incongruent color words, (2) congruent color words, and (3) color-neutral words. Subjects responded to the printed color of the word via a manual response. Compared to the congruent and neutral conditions, the incongruent condition produced significant activation within the left inferior precentral sulcus (IpreCS) located on the border between the inferior frontal gyrus, pars opercularis (BA 44) and the ventral premotor region (BA 6). Significant deactivations in the rostral component of the ACC and the posterior cingulate gyrus were also observed. Selective activation of the left IpreCS is compatible with findings from previous neuroimaging, lesion, electrophysiological, and behavioral studies and is presumably related to the mediation of competing articulatory demands during the interference condition. (JINS, 2002, 8, 735–742.)

Crossref Citations

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2004. Revision Notes in Psychiatry, Second Edition. p. 89.

Schirmer, Annett Zysset, Stefan Kotz, Sonja A and Yves von Cramon, D 2004. Gender differences in the activation of inferior frontal cortex during emotional speech perception. NeuroImage, Vol. 21, Issue. 3, p. 1114.

Hatta, Takeshi Masui, Tetsuo Ito, Yasuhiro Ito, Emi Hasegawa, Yukiharu and Matsuyama, Yukihiro 2004. Relation Between the Prefrontal Cortex and Cerebro-Cerebellar Functions: Evidence From the Results of Stabilometrical Indexes. Applied Neuropsychology, Vol. 11, Issue. 3, p. 153.

Mayer, Andrew R. and Kosson, D. S. 2004. The Effects of Auditory and Visual Linguistic Distractors on Target Localization.. Neuropsychology, Vol. 18, Issue. 2, p. 248.

Derrfuss, Jan Brass, Marcel and Yves von Cramon, D. 2004. Cognitive control in the posterior frontolateral cortex: evidence from common activations in task coordination, interference control, and working memory. NeuroImage, Vol. 23, Issue. 2, p. 604.

Langenecker, Scott A Nielson, Kristy A and Rao, Stephen M 2004. fMRI of healthy older adults during Stroop interference. NeuroImage, Vol. 21, Issue. 1, p. 192.

Mayes, Linda C. Molfese, Dennis L. Key, Alexandra P.F. and Hunter, Nicole C. 2005. Event-related potentials in cocaine-exposed children during a Stroop task. Neurotoxicology and Teratology, Vol. 27, Issue. 6, p. 797.

Machado, Dionis Bastos, Victor Hugo Cunha, Marlo Furtado, Vernon Cagy, Maurício Piedade, Roberto and Ribeiro, Pedro 2005. Efeitos do Bromazepam observados pela eletroencefalografia quantitativa (EEGq) durante a prática de datilografia. Arquivos de Neuro-Psiquiatria, Vol. 63, Issue. 2b, p. 452.

Laird, Angela R. McMillan, Kathryn M. Lancaster, Jack L. Kochunov, Peter Turkeltaub, Peter E. Pardo, Jose V. and Fox, Peter T. 2005. A comparison of label‐based review and ALE meta‐analysis in the Stroop task. Human Brain Mapping, Vol. 25, Issue. 1, p. 6.

Nielsen, Finn Årup Balslev, Daniela and Hansen, Lars Kai 2005. Mining the posterior cingulate: Segregation between memory and pain components. NeuroImage, Vol. 27, Issue. 3, p. 520.

Kemmotsu, Nobuko Villalobos, Michele E. Gaffrey, Michael S. Courchesne, Eric and Müller, Ralph-Axel 2005. Activity and functional connectivity of inferior frontal cortex associated with response conflict. Cognitive Brain Research, Vol. 24, Issue. 2, p. 335.

Derrfuss, Jan Brass, Marcel Neumann, Jane and von Cramon, D. Yves 2005. Involvement of the inferior frontal junction in cognitive control: Meta‐analyses of switching and Stroop studies. Human Brain Mapping, Vol. 25, Issue. 1, p. 22.

Ehlis, A.-C. Herrmann, M.J. Wagener, A. and Fallgatter, A.J. 2005. Multi-channel near-infrared spectroscopy detects specific inferior-frontal activation during incongruent Stroop trials. Biological Psychology, Vol. 69, Issue. 3, p. 315.

Mitchell, Rachel L.C. 2005. The BOLD response during Stroop task-like inhibition paradigms: Effects of task difficulty and task-relevant modality. Brain and Cognition, Vol. 59, Issue. 1, p. 23.

Ojanen, Ville Möttönen, Riikka Pekkola, Johanna Jääskeläinen, Iiro P. Joensuu, Raimo Autti, Taina and Sams, Mikko 2005. Processing of audiovisual speech in Broca's area. NeuroImage, Vol. 25, Issue. 2, p. 333.

Portella, Claudio Elidio Silva, Julio Guilherme Bastos, Victor Hugo Machado, Dionis Cunha, Marlo Cagy, Maurício Basile, Luis Piedade, Roberto and Ribeiro, Pedro 2006. Aprendizagem de procedimentos e efeitos ansiolíticos: medidas eletrencefalográficas, motora e atencional. Arquivos de Neuro-Psiquiatria, Vol. 64, Issue. 2b, p. 478.

VAUGHAN, FRANCES L. HUGHES, ELIZABETH A. JONES, ROBERT S.P. WOODS, ROBERT T. and TIPPER, STEVEN P. 2006. Spatial negative priming in early Alzheimer's disease: Evidence for reduced cognitive inhibition. Journal of the International Neuropsychological Society, Vol. 12, Issue. 03,

Julian, Laura J. and Mohr, David C. 2006. Cognitive Predictors of Response to Treatment for Depression in Multiple Sclerosis. The Journal of Neuropsychiatry and Clinical Neurosciences, Vol. 18, Issue. 3, p. 356.

Wagner, Gerd Sinsel, Esther Sobanski, Thomas Köhler, Sabine Marinou, Varvara Mentzel, Hans-Joachim Sauer, Heinrich and Schlösser, Ralf G.M. 2006. Cortical Inefficiency in Patients with Unipolar Depression: An Event-Related fMRI Study with the Stroop Task. Biological Psychiatry, Vol. 59, Issue. 10, p. 958.

Troyer, Angela K. Leach, Larry and Strauss, Esther 2006. Aging and Response Inhibition: Normative Data for the Victoria Stroop Test. Aging, Neuropsychology, and Cognition, Vol. 13, Issue. 1, p. 20.

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Neural basis of the Stroop interference task: Response competition or selective attention?

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