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Abstract
This study investigates neuronal activation patterns during the psychotherapeutic process, assuming that change dynamics undergo critical instabilities and discontinuous transitions. An internet-based system was used to collect daily self-assessments during inpatient therapies. A dynamic complexity measure was applied to the resulting time series. Critical phases of the change process were indicated by the maxima of the varying complexity. Repeated functional magnetic resonance imaging (fMRI) measurements were conducted over the course of the therapy. The study was realized with 9 patients suffering from obsessive-compulsive disorder (subtype: washing/contamination fear) and 9 matched healthy controls. For symptom-provocative stimulation individualized pictures from patients’ personal environments were used. The neuronal responses to these disease-specific pictures were compared to the responses during standardized disgust-provoking and neutral pictures. Considerably larger neuronal changes in therapy-relevant brain areas (cingulate cortex/supplementary motor cortex, bilateral dorsolateral prefrontal cortex, bilateral insula, bilateral parietal cortex, cuneus) were observed during critical phases (order transitions), as compared to non-critical phases, and also compared to healthy controls. The data indicate that non-stationary changes play a crucial role in the psychotherapeutic process supporting self-organization and complexity models of therapeutic change.
Highlights
With a lifetime prevalence of 2–3% [1,2] and a median prevalence for the total population of 2–3% [3], obsessivecompulsive disorder (OCD) is one of the most frequent adult psychiatric disorders, often showing a chronic or recurrent course [4]
The results reported here refer to the difference in brain activation when looking at individualized symptom provoking pictures (ISPP) and standardized neutral pictures (NP)
This study demonstrates that psychotherapy efficiently works in treating obsessive-compulsive disorders
Summary
With a lifetime prevalence of 2–3% [1,2] and a median prevalence for the total population of 2–3% [3], obsessivecompulsive disorder (OCD) is one of the most frequent adult psychiatric disorders, often showing a chronic or recurrent course [4]. Neurobiological models assume an impaired serotonin and dopamine metabolism [9] especially in the fronto-striato-thalamic system [10,11]. Within these fronto-striato-thalamic loops, different feedback mechanisms are interacting with each other [12,13]. The indirect loop allows for projection inhibition from thalamic to cortical regions and for situational appropriate and flexible behavior. It appears that in OCD patients these inhibitions of thalamo-cortical projections originating at the striatum (putamen, nucleus caudatus, nucleus accumbens) are shifted in favor of the direct and activating loop
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