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Multiple Sklerose (MS) ist die häufigste entzündliche Erkrankung des zentralen Nervensystems (ZNS) im jungen Erwachsenenalter. Weltweit sind mehr als 2,3 Mio. Menschen betroffen – Frauen doppelt so häufig wie Männer. Die Erkrankung ist gekennzeichnet durch eine autoimmunvermittelte Demyelinisierung im ZNS einhergehend mit motorischen, sensorischen und neuropsychiatrischen Defiziten.
Bereits Charcot beschrieb im 19. Jahrhundert auch psychiatrische Syndrome als Teil der Erkrankung. Am häufigsten treten Depressionen und Angststörungen auf [1]. Im Krankheitsverlauf können auch kognitive Defizite und organische Persönlichkeitsveränderungen hinzukommen [8]. Psychotische Symptome sind selten und spielen eher eine Rolle als Nebenwirkung der MS-Therapie mit Kortikosteroiden und seltener β‑Interferonen [5].
Bei unserer Patientin trat die akute psychotische Störung als erste klinische Manifestation der MS auf und führte zur Diagnosestellung.
The graph theoretical analysis of structural magnetic resonance imaging (MRI) data has received a great deal of interest in recent years to characterize the organizational principles of brain networks and their alterations in psychiatric disorders, such as schizophrenia. However, the characterization of networks in clinical populations can be challenging, since the comparison of connectivity between groups is influenced by several factors, such as the overall number of connections and the structural abnormalities of the seed regions. To overcome these limitations, the current study employed the whole-brain analysis of connectional fingerprints in diffusion tensor imaging data obtained at 3 T of chronic schizophrenia patients (n = 16) and healthy, age-matched control participants (n = 17). Probabilistic tractography was performed to quantify the connectivity of 110 brain areas. The connectional fingerprint of a brain area represents the set of relative connection probabilities to all its target areas and is, hence, less affected by overall white and gray matter changes than absolute connectivity measures. After detecting brain regions with abnormal connectional fingerprints through similarity measures, we tested each of its relative connection probability between groups. We found altered connectional fingerprints in schizophrenia patients consistent with a dysconnectivity syndrome. While the medial frontal gyrus showed only reduced connectivity, the connectional fingerprints of the inferior frontal gyrus and the putamen mainly contained relatively increased connection probabilities to areas in the frontal, limbic, and subcortical areas. These findings are in line with previous studies that reported abnormalities in striatal–frontal circuits in the pathophysiology of schizophrenia, highlighting the potential utility of connectional fingerprints for the analysis of anatomical networks in the disorder.