Regional cerebral correlates of global motion perception: Evidence from unilateral cerebral brain damage

doi:10.1093/brain/124.2.310

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Brain, Vol. 124, No. 2, 310-321, February 2001
© 2001 Oxford University Press

Regional cerebral correlates of global motion perception

Evidence from unilateral cerebral brain damage

Lucia M. Vaina¹^,2^,3, Alan Cowey⁵, Rhea T. Eskew, Jr⁵, Marjorie LeMay³ and Thomas Kemper²

¹ Boston University, Department of Biomedical Engineering, Brain and Vision Research Laboratory, ² Boston University, School of Medicine, Department of Neurology, ³ Harvard Medical School–Brigham and Women's Hospital and Massachusetts General Hospital, Departments of Radiology and Neurology, ⁴ Northeastern University, Department of Psychology, Boston, Massachusetts, USA and ⁵ University of Oxford, Department of Experimental Psychology, Oxford, UK

Correspondence to: Professor L. M. Vaina, Boston University, Department of Biomedical Engineering, Brain and Vision Research Laboratory, 44 Cummington Street, Boston, MA 02215, USA E-mail: vaina{at}bu.edu

We used a psychophysical task to measure sensitivity to motiondirection in 50 stroke patients with unilateral brain lesionsand 85 control subjects. Subjects were asked to discriminatethe overall direction of motion in dynamic stochastic randomdot displays in which only a variable proportion of the spotsmoved in a single direction while the remainder moved randomly.Behavioural and neurophysiological evidence shows that the middletemporal (MT/V5) and middle superior temporal (MST) areas inthe macaque monkey are indispensably involved in the perceptionof this type of motion. In human subjects too, lesions in thesame region disrupt performance on this task. Here we assessedmore extensively the correlation between direction sensitivityfor global motion and the anatomical locus of the lesion. Thresholdsfor perceiving the direction of global motion were impairedin the visual field contralateral to the lesion in patientswith lesions in the occipitoparietal and parietotemporal areasinvolving the human analogue of areas MT/V5 and MST, but notby lesions in the occipito-temporal or anterior frontal areas.Patients with lesions involving the anterior temporal or parietallobes displayed poor performance for stimuli presented in eithervisual field, which is consistent with the large and bilateralreceptive fields in these areas in monkeys. The perception ofglobal motion was also more impaired in the centripetal thanthe centrifugal direction in the hemifield contralateral tothe MT/V5 lesion. Surprisingly, thresholds were normal in allpatients when the displays contained static but not dynamicvisual noise, suggesting that their deficit reflects an inabilityto filter out dynamic noise. Although frequent repeated testingof some patients whose lesion involved the human homologue ofMT was accompanied by an improvement in performance, this wasno greater than in other patients who received training on differentmotion tasks.

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