neuroviisas.med.uni-rostock.de
Department of Anatomy University of Rostock
http://neuroviisas.med.uni-rostock.de/neuroviisas.shtml
NeuroVIISAS ( neuro V. Is an open framework for integrative data analysis, visualization and population simulations. NeuroVIISAS provides answers to questions like:. How can we assemble data of tract-tracing studies? Is it possible to integrate tract-tracing and brainmapping data? How does the network of analyzed tract-tracing studies looks like? Which graph theoretical properties possess such a network? Simulation and higher level data integration). And Web of Science. A very general search term was app...
neuroviisas.med.uni-rostock.de
Department of Anatomy University of Rostock
http://neuroviisas.med.uni-rostock.de/students.shtml
Here you will find the whole additional material for the seminars and courses of the Department of Anatomy.
forum-urodynamicum.com
Forum Urodynamicum e.V.
http://www.forum-urodynamicum.com/Jahrestagung_2016/Jahrestagung.php
Jahrestagung Forum Urodynamicum 2016. 25 bis 27. Februar 2016 in Rostock. Web: anatomie.med.uni-rostock.de. Anfahrt: anatomie.med.uni-rostock.de/institut/anfahrt. Tel 49 381 494-7803. Katrin.walter@med.uni-rostock.de. Tel 49 381 494-7851. Christine.frahm@med.uni-rostock.de.
neuroviisas.med.uni-rostock.de
Department of Anatomy University of Rostock
http://neuroviisas.med.uni-rostock.de/otherConnectomes/otherConnectomes.shtml
200 Cumulatated human DTI datasets. In one neuroVIISAS project file. Of 200 single neuroVIISAS files converted from 200 graphml files. Containing a dataset from the UMCD database. Click on image for the original resolution. Matrix containing the number of observations of a connectivity within 200 cumulatated human DTI datasets. 3D-Visualization of the ipsilateral connectivity. Human brain network originated from the USC Multimodal Connectivity Database (UMCD).
neuroviisas.med.uni-rostock.de
Department of Anatomy University of Rostock
http://neuroviisas.med.uni-rostock.de/staff.shtml
Neuroimaging and Neuromapping Team.
neuroviisas.med.uni-rostock.de
Department of Anatomy University of Rostock
http://neuroviisas.med.uni-rostock.de/publications.shtml
Wree A, Mix E, Hawlitschka A, Antipova V, Witt M, Schmitt O, Benecke R (2011) Intrastriatal botulinum toxin improves motor function in the 6-OHDA rat model of Parkinson's disease. Neurobiol Dis 41:291-298. Röwer C, Ziems B, Radtke A, Schmitt O, Reimer T, Koy C, Thiesen H-J, Gerber B, Glocker MO (2011) Toponostics of Invasive Ductal Breast Carcinoma: Combination of Spatial Protein Expression Imaging and Quantitative Proteome Signature Analysis. Int J Clin Exp Path, in press. Usunoff KG, Lazarov NE, Itzev ...
neuroviisas.med.uni-rostock.de
Department of Anatomy University of Rostock
http://neuroviisas.med.uni-rostock.de/neuroproteomics.shtml
In the Neuroproteomics laboratory proteins of specific regions of the central nervous system are separated. The olfactoric bulb, neocortex, cerebellar cortex, caudate putamen complex and midbrain are regions of interest. The development of the proteoms of these regions are studied in an ontogenetic project. The differential expression of proteins in models of neurodegenerative diseases and controls are investigated in a second project. Part of the Neuroproteomics Laboratory with centrifuges.
neuroviisas.med.uni-rostock.de
Department of Anatomy University of Rostock
http://neuroviisas.med.uni-rostock.de/neurodegeneration.shtml
The projects of the Parkinson team are presented here (Under construction).
neuroviisas.med.uni-rostock.de
Department of Anatomy University of Rostock
http://neuroviisas.med.uni-rostock.de/neuroimaging.shtml
The projects of the Neuroimaging and Neuromapping are presented here. The registration of linear and non-linear deformations of serial histologic (paraffin, vibratome, cryotome) sections are developed in this project. In sections through the folded surface of the human brain we are developing methods for exact orthogonal scanning and statistical evaluation to distinguish structural entities. Whole sections of a human brain are analyzed at the cellular level by image analysis and pattern recognition.
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