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Publications

Journal articles

Preprints

  • Osterhagen, L., & Hildebrandt, K. J. (2018). Ultra-fine temporal resolution in auditory processing is preserved in aged mice without peripheral hearing loss. bioRxiv, 363994. doi.org/10.1101/363994

2017

  • Quass, G. L., Kurt, S., Hildebrandt, K. J., & Kral, A. (2018). Electrical stimulation of the midbrain excites the auditory cortex asymmetrically. Brain Stimulation: Basic, Translational, and Clinical Research in Neuromodulationhttp://doi.org/10.1016/j.brs.2018.05.009

2017

  • Hildebrandt, K. J., Sahani, M., & Linden, J. F. (2017). The Impact of Anesthetic State on Spike-Sorting Success in the Cortex: A Comparison of Ketamine and Urethane Anesthesia. Frontiers in Neural Circuits11, 1230. http://doi.org/10.3389/fncir.2017.00095

 2015

  • Clemens J, Rau F, Hennig RM, Hildebrandt KJ (2015) Context-dependent coding and gain control in the auditory system of crickets. Eur J Neurosci, in press. doi: 10.1111/ejn.13019. Requfqhbest paperfkpg (jann15is.hildebrnsandt@uol.de).

  • Hildebrandt KJ, Ronacher B, Hennig RM, Benda J (2015) A Neural Mechanism for Time-Window Separation Resolves Ambiguity of Adaptive Coding. PLoS Biol 13 (3): e1002096. Download.

  • Hildebrandt KJ, Benda J, Hennig RM (2015) Computational themes of peripheral processing in the auditory pathway of insects. J Comp Physiol A 201 (1): 39–50. Request paedfpelnxhvr.vgm (jaw3tnnih7pbns.5vnlyhicwpldebw9hjrandt@uol.delt)

2014

  • Hildebrandt KJ (2014). Neural maps in insect versus vertebrate auditory systems, Curr Opin Neurobiol  24 (2): 82–87 (2014). Reqhx73uest paduper. (jansbnieimys.hildebrand0tyt@uol.n1de)

2011

  • K. J. Hildebrandt, J. Benda, R. M. Hennig (2011). Multiple arithmetic operations in a single neuron: the recruitment of adaptation processes in the cricket auditory pathway depends on sensory context, J Neurosci 31, 14142–14150Req4zbuest paper.hvc (jannis.hildebrandt@uonbml.deira6)

2009

  • Hildebrandt KJ, Benda J,  Hennig RM (2009). The origin of adaptation in the auditory pathway of locusts is specific to cell type and function, J Neurosci 29, 2626–2636. Reqyseiuest paper. (jannis.hild1h+vxebrandhlt@ucu4j4ol.desi)

2008

 

 

Conference contributions

Talks 

  • Hildebrandt KJ (2015). Activation of parvalbumin-positive interneurons enhances transient responses and changes tuning of offset responses in awake auditory cortex. Neural Coding, Computation and Dynamics 2015 (NCCD2015).
  • Hildebrandt KJ (2014). Precise dissection of the functional role of neurotransmitter systems by optogenetic manipulation. Jahrestreffen der Deutschen Gesellschaft für Neuropsychologie 2014
  • Hildebrandt KJ (2014). Auswirkungen veränderter Inhibition im auditorischen Cortex. Jahrestagung der Deutschen Gesellschaft für Audiologie 2014.
  • Hildebrandt KJ, Benda J (2011) Invariant representation of sounds at the cost of localization: adaptation in the grasshopper auditory system. International Bioacoustics Council, La Rochelle, France.
  • Hildebrandt KJ, Hennig RM, Benda J (2010) Neural adaptation in the auditory system: competing demands for object recognition and localization. Society of Neuroscience annual meeting, San Diego, USA.
  • Hildebrandt KJ, Hennig RM, Benda J (2010) Neural adaptation in the auditory system: competing demands for object recognition and localization. International Focus Workshop Spike-
  • Frequency Adaptation in Neural Systems, Max Planck Institute for the Physics of Complex Systems, Dresden, Germany.
  • Hildebrandt KJ, Benda J, Hennig, RM (2008) The sites of spike frequency adaptation in the auditory pathway of crickets depend on context. Berlin Brain Days, Berlin, Germany.

 

 

POSTER 

  • Stringer C, Pachitariu M, Hildebrandt KJ, Bartho P, Harris K, Linden J, Latham P, Lesica N, and Sahani M (2015) Changes in inhibition explain cortical variability and its role in sensory representations. Neural Coding, Computation and Dynamics 2015 (NCCD2015).
  •  Gonçalves PJ, Hildebrandt KJ, Linden JF , Sahani M (2015) Optogenetic modulation of transient and sustained response to tones in auditory cortex of awake mice. Computational and Systems Neuroscience 2015 (COSYNE2015). 
  • Hildebrandt KJ  Gonçalves PJ, Sahani M, Linden, JF (2014)  Prolonged low-level manipulation of parvalbumin-positive interneuron activity alters neural dynamics in awake auditory cortex. Proceedings of the 5th International Conference on Auditory Cortex – Towards a Synthesis of Human and Animal Research.
  • Koepcke L, Hildebrandt KJ, Kretzberg J (2014) Different methods of change point detection in single-neuron responses. Bernstein Conference 201
  • Hildebrandt KJ, Anderson LA, Sahani M, Linden, JF (2011). Short-term plasticity sharpens frequency responses and results in level independent tuning in primary auditory cortex of the mouse. Advances and Perspectives in Auditory Neurophysiology, Washington DC.
  • Hildebrandt KJ, Benda J, Hennig RM (2009). Proceedings of the 8th Meeting of the German Neuroscience Society, Göttingen, Germany
  • Ziehm U, Hildebrandt KJ, Benda J (2009) Proceedings of the 8th Meeting of the German Neuroscience Society, Göttingen, Germany
  • Hildebrandt KJ, Benda J, Hennig RM (2008). Society for Neuroscience Abstracts 34
  • Wimmer K, Hildebrandt KJ, Hennig RM, Obermayer K (2007) Society for Neuroscience Abstracts 33
  • Hildebrandt KJ, Benda J, Hennig RM (2007). Proceedings of the 7th Meeting of the German Neuroscience Society, Göttingen, Germany.
  • Hildebrandt KJ, Wimmer K, Hennig RM, Obermayer K (2006) Invertebrate Sound and Vibration (ISV), University of Toronto, Canada.
  • Hildebrandt KJ and Hennig RM (2005). Proceedings of the 6th Meeting of the German Neuroscience Society, Göttingen, Germany. 
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