Dr. rer. nat. Kathrin Badstübner
Member of the Research Training Group, 02.02.2011 - 31.12.2014, continued as PostDoc
PhD Defence 8.04.2016, Magna Cum Laude
Kathrin Badstübner
University Medicine Rostock
Phone: +49-381-494-96 08
Fax: +49-381-494-95 88
www: neurologie.med.uni-rostock.de
Email: kathrin.badstuebner(at)med.uni-rostock.de
Research Interests
Publications
BADSTUEBNER, K., GIMSA, U., WEBER, I., TUCHSCHERER, A. and GIMSA, J., 2017. Deep brain stimulation of hemiparkinsonian rats with unipolar and bipolar electrodes for up to 6 weeks – behavioral testing of freely moving animals. Parkinson's Disease, 207. DOI: 10.1155/2017/5693589.
BADSTUEBNER, K., STUBBE, M., KROEGER, T., MIX, E. and GIMSA, J., 2017. Impedance detection of the electrical resistivity of the wound tissue around deep brain stimulation electrodes permits registration of the encapsulation process in a rat model. Journal of Electrical Bioimpedance, 8, pp. 11-24. DOI: 10.5617/jeb.4086.
BADSTÜBNER, K., KRÖGER, T., WEBER, I., SCHMIDT, C., MIX, E., GIMSA, U., VAN RIENEN, U., BENECKE, R. and GIMSA, J. 2014. Characterization of the encapsulation process of uni- and bipolar deep brain stimulation electrodes using electrical impedance spectroscopy in the rat. Lecture Notes on Impedance Spectroscopy - Measurement, Modeling and Applications, Kanoun, O. (ed.), CRC Press/Balkema, Boca Raton London New York Leiden, 5
BADSTUEBNER, K., KROEGER, T., MIX, E., GIMSA, U., BENECKE, R., GIMSA, J., 2013. Electrical impedance properties of deep brain stimulation electrodes during long-term in-vivo stimulation in the Parkinson model of the rat. Communicatios in Computer and Information Science, Gabriel, J., Schier, J., van Huffel, S., Conchon, E., Correira, C., Fred, A. and Gamboa, H. (eds.), Springer, Heidelberg Dordrecht London New York, 357, pp. 287-297.
BADSTUEBNER, K., KROEGER, T., MIX, E., GIMSA, U., BENECKE, R. and GIMSA, J., 2012. Characterization of the encapsulation process of deep brain stimulation electrodes using impedance spectroscopy in a rodent model. Proceedings of the 5th International Joint Conference on Biomedical Engineering Systems and Technologies - Conference on Bio-inspired Systems and Signal Processing, Vilamoura Algarve, Portugal, van Huffel, S., Correira, C., Fred, A. and Gamboa, H. (eds.), SciTePress, pp.125-130.
Book Chapters:
BADSTÜBNER, K., WEBER, I., MIX, E., BENECKE, R., SCHMIDT, C., van RIENEN, U., KRÖGER, T., GIMSA, J. and GIMSA, U., 2014. Characterization of the encapsulation process of uni- and bipolar deep brain stimulation electrodes using electrical impedance spectroscopy in the rat, in: Lecture Notes on Impedance Spectroscopy. Measurement, Modeling and Applications, Vol. 5, Taylor and Francis, submitted Oct. 2013.
Posters:
BADSTÜBNER, K., WEBER, I., NOWAK, K.A., GIMSA, U., KROEGER, T., BENECKE, R., GIMSA, J., and MIX, E., 2013. Persistent beneficial effects of DBS in behavioral tests with freely moving hemiparkinsonian rats. FENS Featured Regional Meeting, 11–14 September 2013, Prague, Czech Republic.
BADSTÜBNER, K., WEBER, I., NOWAK, K.A., GIMSA, U., KROEGER, T., BENECKE, R., GIMSA, J., and MIX, E., 2014. Long-term effects of deep brain stimulation on the behavior of freely moving hemiparkinsonian rats. 9th FENS Forum of Neuroscience, 5-9 July 2014, Milan, Italy.