Directional defects in pursuit and motion perception in humans with unilateral cerebral lesions

doi:10.1093/brain/119.5.1535

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Brain, Vol. 119, No. 5, 1535-1550, 1996
© 1996 Guarantors of Brain

research-article

Directional defects in pursuit and motion perception in humans with unilateral cerebral lesions

Jason J. S. Barton¹^,, James A. Sharpe¹ and Jane E. Raymond²^,*

¹Division of Neurology and the Playfair Neuroscience Unit, The Toronto Hospital, University of Toronto Toronto, Ontario, Canada ²Department of Psychology, University of Calgary Calgary, Alberta, Canada

Correspondence to: Correspondence to: Jason J. S. Barton MD, Department of Neurology, Beth Israel Hospital, 330 Brookline Ave, Boston, MA 02215 USA

We tested motion perception and smooth pursuit in 26 patientswith unilateral cerebral hemispheric lesions. We used randomdot cinematograms to test motion direction discrimination. Wemeasured pursuit gain as they followed a predictable sinusoidaltarget moving horizontally at three different frequencies, andan unpredictable horizontal step-ramp target in the ipsilateralhemi-field. Six patients had defects in motion perception whenthe targets were moving towards the side of the lesion (‘ipsi-directional’defects) and two had bidirectional defects. Motion perceptiondefects occurred with lesions of the junction of Brodmann areas19 and 37, a putative human homologue of the monkey V5 complex.Seven patients had ipsi-directional pursuit defects, five ofwhom had damage to the posterior limb of the internal capsule.Only two patients had ipsi-directional defects of both motionperception and sinusoidal smooth pursuit. Four patients hadipsi-directional defects of motion perception alone, and fivepatients had ipsi-directional pursuit defects alone. The twopatients with bi-directional defects in motion perception hadnormal sinusoidal smooth pursuit. Patients with lesions at the19/37 junction and defects of motion perception alone had normalpursuit of unpredictable step-ramp targets in the ipsilateralhemi-field. In contrast, patients with ipsi-directional sinusoidalpursuit defects had decreased ipsi-directional and increasedcontra-directional velocities with step-ramp targets. No patientgroup had a motion-specific directional defect in saccadic accuracy.We conclude that neither predictable nor unpredictable pursuitis necessarily impaired by lesions of the 19/37 junction thatcause ipsi-directional defects of motion perception. These dissociationsbetween smooth pursuit and motion perception provide evidencethat the pursuit system operates as an interconnected networkwith parallel pathways, rather than as a simple sequential hierarchyof cortical areas.

motion perception; smooth pursuit; cerebral lesions; human

Received October 5, 1995. Revised February 6, 1996. Accepted April 26, 1994.

^*Present address: School of Psycology, University of Wales,Bangor, Wales, UK

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