April 6, 2009
Hollow Mask Illusion Doesn’t Fool Schizophrenia Patients
Patients with schizophrenia are able to correctly see through an illusion known as the "Ëhollow mask' illusion, probably because their brain disconnects "Ëwhat the eyes see' from what "Ëthe brain thinks it is seeing', according to a joint UK and German study published in the journal NeuroImage. The findings shed light on why cannabis users may also be less deceived by the illusion whilst on the drug.
People with schizophrenia, a mental illness affecting about one per cent of the population, are known to be immune to certain vision illusions. The latest study confirms that patients with schizophrenia are not fooled by the "Ëhollow mask' illusion, and that this may relate to a difference in the way two parts of their brains communicate with each other "“ the "Ëbottom-up' process of collecting incoming visual information from the eyes, and the "Ëtop-down' process of interpreting this information.
The study used a variation on the three-dimensional "Ëhollow mask' illusion. In this illusion, a hollow mask of a face (pointing inwards, or concave) appears as a normal face (pointing outwards, or convex). During the experiment, 3D normal faces and hollow faces were shown to patients with schizophrenia and control volunteers while they lay inside an fMRI brain scanner, which monitored their brain responses.
As expected, all 16 control volunteers perceived the hollow mask as a normal face "“ mis-categorizing the illusion faces 99 percent of the time. By contrast, all 13 patients with schizophrenia could routinely distinguish between hollow and normal faces, with an average of only six percent mis-categorization errors for illusion faces.
The results of the brain imaging analysis suggested that in the healthy volunteers, connectivity between two parts of the brain, the parietal cortex involved in top-down control, particularly spatial attention, and the lateral occipital cortex involved in bottom-up processing of visual information, increased when the hollow faces were presented. In the patients with schizophrenia, this connectivity change did not occur. These results suggest that patients with schizophrenia have difficulty coordinating responses between different brain areas, also known as "Ëdysconnectivity', and that this may contribute to their immunity to visual illusions. The research group is now investigating dysconnectivity in schizophrenia further, which will hopefully advance our understanding of this disorder.
Danai Dima, Hannover Medical School, says: "The term "Ëschizophrenia' was coined almost a century ago to mean the splitting of different mental domains, but the idea has now shifted more towards connectivity between brain areas. The prevailing theory is that perception principally comprises three components: firstly, sensory input (bottom-up); secondly, the internal production of concepts (top-down); and thirdly, a control (a "Ëcensor' component), which covers interaction between the two first components. Our study provides further evidence of "Ëdysconnectivity' between these components in the brains of people with schizophrenia."
Dr Jonathan Roiser, UCL Institute of Cognitive Neuroscience, says: "Our findings also shed light on studies of visual illusions which have used psychomimetics "“ drugs that mimic the symptoms of psychosis. Studies using natural or synthetic tetrahydrocannabinol (THC), the ingredient of cannabis resin responsible for its psychotic-like effects, have found that people under the influence of cannabis are also less deceived by the hollow mask illusion. It may be that THC causes a temporary "disconnection" between brain areas, similar to that seen in patients with schizophrenia, though this hypothesis needs to be tested in further research."
The project was funded by a Marie Curie Early Stage Training Fellowship from the European Community.
"ËUnderstanding why patients with schizophrenia do not perceive the hollow mask illusion using dynamic causal modeling' by D DimaÃ¯ª, JP Roiser, DE Dietrich, C Bonnemann, H Lanfermann, HM Emrich and W Dillo, is published online in the journal NeuroImage.
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