fMRI Studies of Stroop Tasks Reveal Unique Roles of Anterior and Posterior Brain Systems in Attentional Selection

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fMRI Studies of Stroop Tasks Reveal Unique Roles of Anterior and Posterior Brain Systems in Attentional Selection

Marie T. Banich, Michael P. Milham, Ruthann Atchley, Neal J. Cohen, Andrew Webb, Tracey Wszalek, Arthur F. Kramer, Zhei-Pei Liang, Alexander Wright, Joel Shenker and Richard Magin

The Beckman Institute, University of Illinois at Urbana-Champaign

The brain's attentional system identifies and selects informationthat is task-relevant while ignoring information that is task-irrelevant.In two experiments using functional magnetic resonance imaging,we examined the effects of varying task-relevant informationcompared to task-irrelevant information. In the first experiment,we compared patterns of activation as attentional demands wereincreased for two Stroop tasks that differed in the task-relevantinformation, but not the task-irrelevant information: a color–wordtask and a spatial–word task. Distinct subdivisions ofdorsolateral prefrontal cortex and the precuneus became activatedfor each task, indicating differential sensitivity of theseregions to task-relevant information (e.g., spatial informationvs. color). In the second experiment, we compared patterns ofactivation with increased attentional demands for two Strooptasks that differed in task-irrelevant information, but nottask-relevant information: a color–word task and color–objecttask. Little differentiation in activation for dorsolateralprefrontal and precuneus regions was observed, indicating arelative insensitivity of these regions to task-irrelevant information.However, we observed a differentiation in the pattern of activityfor posterior regions. There were unique areas of activationin parietal regions for the color–word task and in occipito-temporalregions for the color–object task. No increase in activationwas observed in regions responsible for processing the perceptualattribute of color. The results of this second experiment indicatethat attentional selection in tasks such as the Stroop task,which contain multiple potential sources of relevant information(e.g., the word vs. its ink color), acts more by modulatingthe processing of task-irrelevant information than by modulatingprocessing of task-relevant information.

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