Subcortical visual dysfunction in schizophrenia drives secondary cortical impairments

doi:10.1093/brain/awl233

Brain Advance Access originally published online on September 19, 2006
Brain 2007 130(2):417-430; doi:10.1093/brain/awl233

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Subcortical visual dysfunction in schizophrenia drives secondary cortical impairments

Pamela D. Butler¹^,2^,3, Antigona Martinez¹, John J. Foxe¹^,3, Dongsoo Kim¹, Vance Zemon⁴, Gail Silipo¹, Jeannette Mahoney¹^,4, Marina Shpaner¹^,3, Maria Jalbrzikowski¹ and Daniel C. Javitt¹^,2^,3

¹ Nathan Kline Institute for Psychiatric Research, Orangeburg ² Department of Psychiatry, New York University School of Medicine ³ City College of the City University of New York ⁴ Ferkauf Graduate School of Psychology, Yeshiva University Bronx, NY, USA

Correspondence to: Pamela D. Butler, PhD, Nathan Kline Institute for Psychiatric Research, 140 Old Orangeburg Road, Orangeburg, NY 10962, USA E-mail: butler{at}nki.rfmh.org

Visual processing deficits are an integral component of schizophreniaand are sensitive predictors of schizophrenic decompensationin healthy adults. The primate visual system consists of discretesubcortical magnocellular and parvocellular pathways, whichproject preferentially to dorsal and ventral cortical streams.Subcortical systems show differential stimulus sensitivity,while cortical systems, in turn, can be differentiated usingsurface potential analysis. The present study examined contributionsof subcortical dysfunction to cortical processing deficits usinghigh-density event-related potentials. Event-related potentialswere recorded to stimuli biased towards the magnocellular systemusing low-contrast isolated checks in Experiment 1 and towardsthe magnocellular or parvocellular system using low versus highspatial frequency (HSF) sinusoidal gratings, respectively, inExperiment 2. The sample consisted of 23 patients with schizophreniaor schizoaffective disorder and 19 non-psychiatric volunteersof similar age. In Experiment 1, a large decrease in the P1component of the visual event-related potential in responseto magnocellular-biased isolated check stimuli was seen in patientscompared with controls (F = 13.2, P = 0.001). Patients alsoshowed decreased slope of the contrast response function overthe magnocellular-selective contrast range compared with controls(t = 9.2, P = 0.04) indicating decreased signal amplification.In Experiment 2, C1 (F = 8.5, P = 0.007), P1 (F = 33.1, P <0.001) and N1 (F = 60.8, P < 0.001) were reduced in amplitudeto magnocellular-biased low spatial frequency (LSF) stimuliin patients with schizophrenia, but were intact to parvocellular-biasedHSF stimuli, regardless of generator location. Source waveformsderived from inverse dipole modelling showed reduced P1 in Experiment1 and reduced C1, P1 and N1 to LSF stimuli in Experiment 2,consistent with surface waveforms. These results indicate pervasivemagnocellular dysfunction at the subcortical level that leadsto secondary impairment in activation of cortical visual structureswithin dorsal and ventral stream visual pathways. Our findingof early visual dysfunction is consistent with and explanatoryof classic literature showing subjective complaints of visualdistortions and is consistent with early visual processing deficitsreported in schizophrenia. Although deficits in visual processinghave frequently been construed as resulting from failures oftop-down processing, the present findings argue strongly forbottom-up rather than top-down dysfunction at least within theearly visual pathway. Deficits in magnocellular processing inthis task may reflect more general impairments in neuronal systemsfunctioning, such as deficits in non-linear amplification andmay thus represent an organizing principle for predicting neurocognitivedysfunction in schizophrenia.

Key Words: event-related potential; schizophrenia; EEG dipole source localization; magnocellular; dorsal stream

Abbreviations: HSF, high spatial frequency; LSF, low spatial frequency

Received May 10, 2006. Revised July 27, 2006. Accepted August 1, 2006.

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				D. C. Javitt Sensory Processing in Schizophrenia: Neither Simple nor Intact Schizophr Bull, November 1, 2009; 35(6): 1059 - 1064. [Abstract] [Full Text] [PDF]

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				A. Martinez, S. A. Hillyard, E. C. Dias, D. J. Hagler Jr, P. D. Butler, D. N. Guilfoyle, M. Jalbrzikowski, G. Silipo, and D. C. Javitt Magnocellular Pathway Impairment in Schizophrenia: Evidence from Functional Magnetic Resonance Imaging J. Neurosci., July 23, 2008; 28(30): 7492 - 7500. [Abstract] [Full Text] [PDF]

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