Abstract
Psychotic patients have problems with bodily self-recognition such as the experience of self-produced actions (sense of agency) and the perception of the body as their own (sense of ownership). While it has been shown that such impairments in psychotic patients can be explained by hypersalient processing of external sensory input it has also been suggested that they lack normal efference copy in voluntary action. However, it is not known how problems with motor predictions like efference copy contribute to impaired sense of agency and ownership in psychosis or psychosis-related states. We used a rubber hand illusion based on finger movements and measured sense of agency and ownership to compute a bodily self-recognition score in delusion-proneness (indexed by Peters’ Delusion Inventory - PDI). A group of healthy subjects (n=71) experienced active movements (involving motor predictions) or passive movements (lacking motor predictions). We observed a highly significant correlation between delusion-proneness and self-recognition in the passive conditions, while no such effect was observed in the active conditions. This was seen for both ownership and agency scores. The result suggests that delusion-proneness is associated with hypersalient external input in passive conditions, resulting in an abnormal experience of the illusion. We hypothesize that this effect is not present in the active condition because deficient motor predictions counteract hypersalience in psychosis proneness.
Highlights
One of the most complex computations the brain has to perform involves construction of the experienced boundary between the body and the external world
When we examine the data for active and passive conditions separately we found a significant positive correlation between self-recognition score and Peters’ Delusion Inventory (PDI) in passive conditions (Fig 3, r = 0.313ÃÃ, p = 0.008; Spearman’s rank correlation), and no significant correlation between self-recognition score and PDI in active conditions (r = -0.002, p = 0.988; Spearman’s rank correlation)
This differential effect of PDI on self-recognition between conditions was supported by a general linear mixed model analysis, showing a tendency towards a significant PDIÃconditions interaction (F = 3.102, p = 0.083). This suggests a trend towards a specific effect of PDI on selfrecognition in the passive condition
Summary
One of the most complex computations the brain has to perform involves construction of the experienced boundary between the body and the external world. This conscious experience of the body in space depends on two basic cognitive processes. The second is the experience that we are in voluntary control of our bodily actions—the sense of agency [5,6]. Both the sense of ownership and agency contribute to the self-recognition of bodily actions in a variety of contexts and laboratory tasks [7,8,9].
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