Neurophysiologische Substrate von Störungen des Belohnungssystems und kognitiver Funktionen bei unmedizierten Schizophreniepatienten untersucht mittels funktioneller Magnetresonanztomographie und 1 H-Magnetresonanzspektroskopie

Bildgebende Studien haben gezeigt, dass bei schizophrenen Patienten Positivsymptome mit Veränderungen mesolimbischer Aktivierungsmuster unter Einbeziehung des Nucleus accumbens in Zusammenhang stehen. Hierbei ist von besonderem Interesse, dass der Nucleus accumbens Teil des Belohnungssystems ist, wobei die integrale „Bewertung“ belohnungsanzeigender Reize präfrontalen kortikalen Strukturen, insbesondere dem anterioren Zingulum, zuzurechnen ist. Bereits in der Antizipationsphase potentiell belohnender Reize, werden vermutlich zur Berechnung von Prädiktionsabweichungen dopaminerge Signale in der VTA generiert und modulieren den Nucleus accumbens. Es gibt zahlreiche Hinweise, dass glutamaterge Neurone des anterioren Zingulums die Dopaminausschüttung im Nucleus accumbens beeinflussen, und dass diese Modulation bei Erkrankungen wie der Schizophrenie beeinträchtigt ist. Ziel der vorliegenden Arbeit war es, mittels funktioneller Magnetresonanztomographie und Protonen Magnetresonanzspektroskopie, Hinweise über den Zusammenhang zwischen der glutamatergen Neurotransmission des ACC und belohnungsassoziierter Dopaminausschüttung im Nucleus accumbens bei 23 gesunden Probanden und bei 23 unmedizierten schizophrenen Patienten zu erlangen. Die Ergebnisse weisen darauf hin, dass die gegenseitige Modulation von anteriorem Zingulum und Nucleus accumbens bei schizophrenen Patienten gestört ist. Dieses und weitere Ergebnisse wurden im theoretischen Rahmen der NMDA-Rezeptor-Hypoaktivität und einer gestörten Balance zwischen Dopamin-D1- und Dopamin-D2-Rezeptor-Aktivität als pathophysiologische Korrelate schizophrener Erkrankungen diskutiert.Imaging studies have demonstrated that for schizophrenic patients a correlation exists between positive symptoms and changes in the patterns of mesolimbic activity. Especially the changes in the ncl. accumbens (Nac) were interpreted in connection with the reward system. The signals indicating reward are thought to be processed by the anterior cingulum (ACC). These structures attribute meaning to the reward signals. In the anticipation phase of a potentially rewarding stimulus, dopaminergic signals from the VTA are generated in prediction of expected or aberrant outcome, thus modulating the Nac. Data indicate a direct modulation of the Nac. by glutamatergic neurons of the anterior cingulum. A major aim of this thesis is to establish a connection between the reward associated dopaminergic signals of the ncl. accumbens and the glutamatergic projections of the acc in unmedicated schizophrenic patients and healthy controls. The methods included measurements of proton magnetic resonance spectroscopy (1H-MRS) and functional MRI-scans done at a 3-Tesla tomograph. The paradigm applied was a modified version of the monetary incentive delay paradigm (Knutson et al. 2000). In healthy volunteers we found a significant negative correlation between the glutamate concentration in the ACC and the BOLD-contrast in the Nac (reward versus neutral), in contrast to the findings in schizophrenic patients. A significant higher BOLD-contrast was seen in the anticipation phase in healthy controls. The results were incorporated in a model of NMDA-R-Hypoaktivity. In addition to discussing the functional aspects for the structures involved the model was further expanded to include the hypothesis of a disturbed balance between dopamine-D1- and -D2-receptor activity and a dysfunctional hippocampal gating-process. The so constructed model suggests a profound striato-thalamo-cortical filter disturbance as the basis of the observed aberrations in the reward processing in schizophrenic disorders

Low effective organizational strategies in visual memory performance of unmedicated alcoholics during early abstinence

Objective: Alcohol-dependent patients in early abstinence show an impairment of cognitive functions which can be seen in poor implementation of newly learned skills for avoiding relapse. Executive dysfunction may persist during abstinence in alcohol-dependent persons, thus mitigating long-term abstinence. This study assessed visual memory function and choice of organizational strategies in alcoholics, as these are major factors necessary to implement ongoing behavior changes which are required for maintaining abstinence

Somatosensory System Deficits in Schizophrenia Revealed by MEG during a Median-Nerve Oddball Task

Although impairments related to somatosensory perception are common in schizophrenia, they have rarely been examined in functional imaging studies. In the present study, magnetoencephalography (MEG) was used to identify neural networks that support attention to somatosensory stimuli in healthy adults and abnormalities in these networks in patient with schizophrenia. A median-nerve oddball task was used to probe attention to somatosensory stimuli, and an advanced, high-resolution MEG source-imaging method was applied to assess activity throughout the brain. In nineteen healthy subjects, attention-related activation was seen in a sensorimotor network involving primary somatosensory (S1), secondary somatosensory (S2), primary motor (M1), pre-motor (PMA), and paracentral lobule (PCL) areas. A frontal–parietal–temporal “attention network”, containing dorsal- and ventral–lateral prefrontal cortex (DLPFC and VLPFC), orbitofrontal cortex (OFC), anterior cingulate cortex (ACC), superior parietal lobule (SPL), inferior parietal lobule (IPL)/supramarginal gyrus (SMG), and temporal lobe areas, was also activated. Seventeen individuals with schizophrenia showed early attention-related hyperactivations in S1 and M1 but hypo-activation in S1, S2, M1, and PMA at later latency in the sensorimotor network. Within this attention network, hypoactivation was found in SPL, DLPFC, orbitofrontal cortex, and the dorsal aspect of ACC. Hyperactivation was seen in SMG/IPL, frontal pole, and the ventral aspect of ACC in patients. These findings link attention-related somatosensory deficits to dysfunction in both sensorimotor and frontal–parietal–temporal networks in schizophrenia

[Sleep disorders in schizophrenia]

Difficulties initiating and maintaining sleep as well as circadian rhythm disorders are very common in schizophrenia. Sleeping disorders occur as early signs of the first manifestation of illness as well as early signs of relapse. They bear a relation to positive symptoms and disorganisation of thought. Polysomnographic investigations with schizophrenic patients typically demonstrate a prolonged sleep-onset latency and a decrease in sleep efficiency and slow wave sleep. In particular, distortions of deep sleep can affect neocortical plasticity and cognition negatively. The considerable sleeping disorders are often not sufficiently taken into account in clinical routine. Particularly older antipsychotic medication like Haloperidol can affect the circadian and sleep-wake rhythms negatively. Therefore, pathophysiological changes of sleep within the scope of schizophrenic disorders and their potential implications are discussed in this outline. Regarding therapy, psychoeducative approaches are discussed as well as the administration of antipsychotic medication in accordance with the recommendations of sleep medicine professionals