Visual perception of motion, luminance and colour in a human hemianope

doi:10.1093/brain/122.6.1183

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Brain, Vol. 122, No. 6, 1183-1198, June 1999
© 1999 Oxford University Press

Visual perception of motion, luminance and colour in a human hemianope

Antony B. Morland, Simon R. Jones, Alison L. Finlay, Emilie Deyzac, Sandra Lê and Samuel Kemp

Physics Department, Blackett Laboratory, Imperial College, London, UK

Correspondence to: Antony B. Morland, Physics Department, Blackett Laboratory, Imperial College, London SW7 2BZ, UK E-mail: a.morland{at}ic.ac.uk

Human patients rendered cortically blind by lesions to V1 cannevertheless discriminate between visual stimuli presented totheir blind fields. Experimental evidence suggests that tworesponse modes are involved. Patients are either unaware oraware of the visual stimuli, which they are able to discriminate.However, under both conditions patients insist that they donot see. We investigate the fundamental difference between perceptsderived for the normal and affected hemifield in a human hemianopewith visual stimuli of which he was aware. The psychophysicalexperiments we employed required the patient, GY, to make comparisonsbetween stimuli presented in his affected and normal hemifields.The subject discriminated between, and was allowed to match,the stimuli. Our study reveals that the stimulus parametersof colour and motion can be discriminated and matched betweenthe normal and blind hemifields, whereas brightness cannot.We provide evidence for associations between the percepts ofcolour and motion, but a dissociation between the percepts ofbrightness, derived from the normal and hemianopic fields. Ourresults are consistent with the proposal that the perceptionof different stimulus attributes is expressed in activity offunctionally segregated visual areas of the brain. We also believeour results explain the patient's insistence that he does notsee stimuli, but can discriminate between them with awareness.

blindsight; scotoma; vision; V1; cortical blindness

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