fMRI correlates of state and trait effects in subjects at genetically enhanced risk of schizophrenia

doi:10.1093/brain/awh070

Brain Advance Access originally published online on January 28, 2004

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Brain, Vol. 127, No. 3, 478-490, 2004
© 2004 Guarantors of Brain
doi: 10.1093/brain/awh070

fMRI correlates of state and trait effects in subjects at genetically enhanced risk of schizophrenia

H. C. Whalley¹, E. Simonotto¹, S. Flett², I. Marshall³, K. P. Ebmeier¹, D. G. C. Owens¹, N. H. Goddard², E. C. Johnstone¹ and S. M. Lawrie¹

¹ Division of Psychiatry, ² Centre for Functional Imaging Studies (CFIS), Division of Informatics and ³ Division of Medical Physics, University of Edinburgh, Edinburgh, UK

Correspondence to: Ms Heather Whalley, Division of Psychiatry, University of Edinburgh, Kennedy Tower, Royal Edinburgh Hospital, Morningside Park, Edinburgh EH10 5HF, UK E-mail: hwhalley{at}staffmail.ed.ac.uk

Schizophrenia is a highly heritable disorder that typicallydevelops in early adult life. Structural imaging studies haveindicated that patients with the illness, and to some extenttheir unaffected relatives, have subtle deficits in severalbrain regions, including prefrontal and temporal lobes. It is,however, not known how this inherited vulnerability leads topsychosis. This study used a covert verbal initiation fMRI taskpreviously shown to elicit frontal and temporal activity (theHayling sentence completion task) to examine this issue. A large(n = 69) number of young participants at high risk of developingschizophrenia for genetic reasons took part, together with amatched group of healthy controls (n = 21). At the time of investigation,none had any psychotic disorder, but on detailed interview someof the high-risk participants (n = 27) reported isolated psychoticsymptoms. The study aimed to determine: (i) whether there wereactivation differences that occurred in all subjects with agenetic risk of schizophrenia (i.e. ‘trait’ effects);and (ii) whether there were activation differences that onlyoccurred in those at high risk who had isolated psychotic symptoms(‘state’ effects). No activation differences werefound in regions commonly reported to be abnormal in the establishedillness, namely the dorsolateral prefrontal cortex or in thetemporal lobes, but group differences of apparent genetic causewere evident in medial prefrontal, thalamic and cerebellar regions.In addition, differences in activation in those with symptomswere found in the intraparietal sulcus. No significant differencesin performance were found between the groups, and all subjectswere antipsychotic naïve. These findings therefore suggestthat vulnerability to schizophrenia may be inherited as a disruptionin a fronto-thalamic-cerebellar network, and the earliest changesspecific to the psychotic state may be related to hyperactivationin the parietal lobe.

Key Words: fMRI; high risk; schizophrenia; sentence completion

Received July 30, 2003. Revised October 7, 2003. Accepted October 27, 2003.

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