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Whitlow, Laura
Languages: English
Types: Doctoral thesis
Subjects: R1
Schizophrenia is a highly complex psychiatric disorder with a lifetime risk of approximately 0.4-0.7%. Alterations in the major inhibitory neurotransmitter GABA have been identified in the brains of those with schizophrenia. Studies examining the nature of these differences have given variable results depending on the type of patient group, medication and the brain region where in vivo MRS GABA was measured. Chapter 5 of this thesis utilises the noninvasive imaging tool magnetic resonance spectroscopy (MRS) to investigate differences in GABA levels in two distinct areas of the brain of those with schizophrenia, whilst adjusting for important potential confounds such as antipsychotic medication dosage. GABA is also of interest due to its link with synchronised oscillatory activity, primarily gamma activity that is implicated in connectivity between different brain regions as well as cognitive functioning, thus demonstrating its potential relevance to schizophrenia research. Chapter 6 investigates differences in gamma activity between those with schizophrenia and controls induced by a static stimulus and a moving radial stimulus, both known to induce strong visual gamma responses, using magnetoencephalography (MEG) imaging methods. Because GABA and gamma measures are robust for visual cortex measures, we used visual psychophysics tasks thought to be dependent on inhibitory processes - orientation discrimination and the tilt illusion, to see if there is a behavioural deficit in schizophrenia and if this also relates to changes in GABA and gamma measures. Chapters 3 and 4 set out to validate the psychophysics and to establish whether they were appropriate paradigms for the patient group for which they were intended. Chapter 7 brings together the imaging and psychophysics to see if a relationship exists between them in both the patient and control groups.

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