Dissociating Neural Correlates of Cognitive Components in Mental Calculation

doi:10.1093/cercor/11.4.350

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Cerebral Cortex, Vol. 11, No. 4, 350-359, April 2001
© 2001 Oxford University Press

Dissociating Neural Correlates of Cognitive Components in Mental Calculation

O. Gruber¹^,2, P. Indefrey³, H. Steinmetz⁴ and A. Kleinschmidt⁴

¹ Max-Planck-Institute of Cognitive Neuroscience, Leipzig, Germany, , ² Institute of Medicine, Research Center Jülich, Jülich, Germany, , ³ Max-Planck-Institute for Psycholinguistics, Nijmegen, The Netherlands and , ⁴ Department of Neurology, University of Frankfurt, Frankfurt, Germany

Mental calculation is a complex cognitive operation that iscomposed of a set of distinct functional processes. Using functionalmagnetic resonance imaging (fMRI), we mapped brain activityin healthy subjects performing arithmetical tasks and controltasks evoking a comparable load on visuo-constructive, linguistic,attentional and mnemonic functions. During calculation, as wellas non-mathematical tasks, similar cortical networks consistingof bilateral prefrontal, premotor and parietal regions wereactivated, suggesting that most of these cortical areas do notexclusively represent modules for calculation but support moregeneral cognitive operations that are instrumental but not specificto mental arithmetic. Significant differences between calculationand the non-mathematical tasks were found in parietal sub-regions,where non-arithmetic number or letter substitution tasks preferentiallyactivated the superior parietal lobules whereas calculationpredominantly elicited activation of the left dorsal angulargyrus and the medial parietal cortices. We interpret the latteractivations to reflect sub-processes of mental calculation thatare related to the processing of numerical representations duringexact calculation and to arithmetical fact retrieval. Finally,we found that more complex calculation tasks involving the applicationof calculation rules increased activity in left inferior frontalareas that are known to subserve linguistic and working memoryfunctions. Taken together, these findings help to embed thespecific cognitive operation of calculation into a neural frameworkthat provides the required set of instrumental components. Thisresult may further inform the cognitive modeling of calculationand adds to the understanding of neuropsychological deficitpatterns in patients.

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