Maintaining and Shifting Attention within Left or Right Hemifield

doi:10.1093/cercor/10.7.706

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Cerebral Cortex, Vol. 10, No. 7, 706-713, July 2000
© 2000 Oxford University Press

Maintaining and Shifting Attention within Left or Right Hemifield

Rik Vandenberghe, John Duncan¹, Karen M. Arnell¹, Sonia J. Bishop¹, Nicholas J. Herrod², Adrian M. Owen¹, Pawanjit S. Minhas², Patrick Dupont³, John D. Pickard² and Guy A. Orban

Laboratorium voor Neuroen Psychofysiologie, Katholieke Universiteit Leuven, Belgium, , ¹ MRC Cognition and Brain Sciences Unit, University of Cambridge, Cambridge, , ² Wolfson Brain Imaging Centre, Cambridge, UK and , ³ Department of Nuclear Medicine, University Hospital Gasthuisberg, Leuven, Belgium

Positron emission tomography (PET) was used to examine two questions:(i) which structures of the intact human brain change theiractivity with the direction of attention to left or right visualfield; and (ii) how does activity in these structures, and inparietal cortex in particular, depend on the frequency of attentionalshifts? Subjects were required to discriminate the orientationof peripheral gratings. The two main experimental variableswere the attended hemifield (left or right) and the proportionof trials requiring a shift within that hemifield (20% or 80%).A detection control condition was also included. Behaviourally,subjects were less accurate and significantly slower when atrial required a shift than when it did not. Ventral and lateraloccipital areas showed significantly higher blood flow levelscontralateral to the direction of attention. Replicating previouswork, there was also a significant main effect of the directionof attention in left lateral prefrontal cortex: blood flow levelswere higher during leftward attention in comparison both tobaseline and to rightward attention. This left frontal effectreached significance in single subjects in whom several activationsites could be distinguished within left middle and inferiorfrontal gyrus. Right and left parietal cortex were activatedduring both left- and right-field attention conditions, witha tendency for higher activity levels when attention was directedcontralaterally. Contrary to the experimental hypothesis, however,parietal regions were not activated differentially by high versuslow numbers of attentional shifts. The current experiment confirmsthat left frontal convexity is sensitive to manipulations ofthe direction of visuospatial attention. The results do notindicate a specific role of parietal cortex in attentional shifting.

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