Journal of neural transmission
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The anterior thalamic nuclei (ATN) encompass a large region of the anteromedial aspect of the human thalamus. Three ATN have been classically described: anteroventral (AV), anteromedial (AM) and anterodorsal (AD). The present study has carried out histochemical and immunohistochemical procedures in the ATN of normal individuals to analyze whether these nuclei are chemically distinct. ⋯ Other cytoarchitectural and myeloarchitectural techniques, specifically Nissl and Gallyas stainings, were used to delineate the boundaries of the ATN. The main findings of this study are: 1) AChE was very abundant in the AD and was irregular or heterogeneously distributed in the AV and AM; 2) LAMP immunoreactive (ir) neuropil was present throughout the ATN and its distribution was heterogeneous in the AV and AM; 3) the ATN harbored CB-, PV- and CR-ir neurons and neuropil; and, 4) the neuropeptide analysis revealed numerous SP positive varicose fibers scattered throughout the ATN in contrast to very few ENK-ir varicose fibers. These morphological findings describe a heterogeneous chemical anatomy in the human ATN which may reflect regional differences in the functional organization of the ATN with respect to the other thalamic nuclei and the cerebral cortex.
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To explore the association between eating disorders (EDs) prior to the use of clozapine/olanzapine (pre-clozapine/olanzapine EDs) and after initiation of these antipsychotics (post-clozapine/olanzapine EDs). ⋯ Clozapine/olanzapine may induce recurrence or deterioration of binge eating symptomatology or full-blown EDs in patients with prior EDs.
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Recent developments of new generations of mass spectrometers and improvements in the field of chromatography have revolutionized protein analytics. Particularly the combination of liquid chromatography as a separation tool for proteins and peptides with tandem mass spectrometry as an identification tool referred to as LC-MS/MS has generated a powerful and broadly used technique in the field of proteomics. ⋯ This review gives an overview of modern LC-MS/MS based proteomics, describing state-of-the-art chromatography and modern mass spectrometry. Strategies to perform quantitative proteomics will be presented and capabilities as well as current limitations of this innovative methodology will be discussed.
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Spinocerebellar ataxia type 4 (SCA4), also known as 'hereditary ataxia with sensory neuropathy', represents a very rare, progressive and untreatable form of an autosomal dominant inherited cerebellar ataxia (ADCA). Due to a lack of autopsy cases, no neuropathological or clinicopathological studies had yet been performed in SCA4. In the present study, the first available cerebellar and brainstem tissue of a clinically diagnosed and genetically-confirmed German SCA4 patient was pathoanatomically studied using serial thick sections. ⋯ In addition, immunocytochemical analysis using the anti-polyglutamine antibody 1C2 failed to detect any polyglutamine-related immunoreactivity in the central nervous regions of this SCA4 patient studied. In view of the known functional role of affected nuclei and related fiber tracts, the present findings not only offer explanations for the well-known disease symptoms of SCA4 patients (i.e. ataxic symptoms, dysarthria and somatosensory deficits), but for the first time help to explain why diplopia, gaze-evoked nystagmus, auditory impairments and pathologically altered brainstem auditory evoked potentials, saccadic smooth pursuits, impaired somatosensory functions in the face, and dysphagia may occur during the course of SCA4. Finally, the results of our immunocytochemical studies support the concept that SCA4 is not a member of the CAG-repeat or polyglutamine diseases.
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Based on internal medicine and psychiatry and in close connection with pathology, the neurosciences in Austria began to develop in the 18(th) century, e.g. with the description of inflammation of the central nervous system by J. P. Franck (1745-1823) and the "phrenology" by F. ⋯ Poewe, L. Deecke, and many of their associates produced important contributions to wide areas of modern neurosciences. Important for the future are the foundation of the Institute of Brain Research at Vienna Medical University and of the Austrian Society of Neurology which will give further impact for the future progress of neuroscience research in Austria and its integration into the international science community.