Mapping the network for planning: a correlational PET activation study with the Tower of London task

doi:10.1093/brain/122.10.1973

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Brain, Vol. 122, No. 10, 1973-1987, October 1999
© 1999 Oxford University Press

Mapping the network for planning: a correlational PET activation study with the Tower of London task

Alain Dagher¹^,4, Adrian M. Owen³, Henning Boecker¹ and David J. Brooks¹^,2

¹ Medical Research Council Cyclotron Unit, Hammersmith Hospital, ² Institute of Neurology, London, ³ MRC Cognition and Brain Sciences, Cambridge, UK and ⁴ McConnell Brain Imaging Centre, Montreal Neurological Institute, Montreal, Canada

Correspondence to: Alain Dagher, MD, Montreal Neurological Institute, 3801 University St Montreal, Quebec, Canada H3A 2B4 E-mail: alain{at}bic.mni.mcgill.ca

We used the Tower of London task (TOL) and H₂¹⁵O-PET to mapthe network of brain structures involved in planning. Six healthyright-handed subjects had 12 measurements of relative regionalcerebral blood flow (rrCBF) during six conditions, each performedtwice. There was one rest condition, and five sets of TOL problemsat different complexity levels, performed on a touch-sensitivecomputer monitor with the right arm. Complexity was definedas the number of moves required to solve each problem. Activationwas analysed in two ways: a category analysis comparing levelsof rrCBF during rest and task was done to identify all structuresinvolved in performance of the TOL; and a correlation analysiswas carried out to delineate a subset of structures where thelevels of rrCBF correlated with task complexity. Activated brainareas in which rrCBF increases did not correlate with complexitycould be grouped into: (i) regions belonging to the dorsal streamof visual input processing, namely visual cortical areas 17,18 and 19, and posterior parietal cortical areas 7 and 40; and(ii) regions involved in the execution and sequencing of armmovements (right cerebellum, left primary motor cortex and supplementarymotor area). Brain regions where levels of rrCBF correlatedwith task complexity included lateral premotor cortex (area6), rostral anterior cingulate cortex (areas 32 and 24), dorsolateralprefrontal cortex (areas 9 and 46) bilaterally, and right dorsalcaudate nucleus. We propose that dorsolateral prefrontal, lateralpremotor, anterior cingulate and caudate areas form a networkfor the planning of movement that interacts with brain areasprimarily involved in visual processing and movement execution.

prefrontal cortex; anterior cingulate cortex; PET; Tower of London task; basal ganglia; caudate nucleus

BA = Brodmann area; rrCBF = relative regional cerebral blood flow; SMA = supplementary motor area; TOL = Tower of London task; VCA line = vertical line traversing the posterior margin of the anterior commissure

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