List of Publications

Peer-reviewed articles:

  • Smit, J.V.; Janssen, M.L.F.; Schulze, H.; Jahanshahi, A.; Van Overbeeke, J.J.; Temel, Y.; Stokroos, R.J. (2015) Deep brain stimulation in tinnitus: Current and future perspectives. Brain Res., 1608: 51-65. (Link)
  • Tziridis, K.; Ahlf, S.; Jeschke, M.; Happel, M.F.K.; Ohl, F.W.; Schulze, H. (2015) Noise trauma induced neural plasticity throughout the auditory system of Mongolian gerbils: Differences between tinnitus developing and non-developing animals. Frontiers in Neurology, 6, article 22, doi: 10.3389/fneur.2015.00022(Link)
  • Schulze, H.; Tziridis, K. (2014) Restoration of function after cortical lesion: does it require an internal template? Neural Regeneration Research, 9(23): 2029-2031.
  • Tziridis, K.; Korn, S.; Ahlf, S.; Schulze, H. (2014) Protective effects of Ginkgo biloba extract EGb 761® against noise trauma-induced hearing loss and tinnitus development. Neural Plasticity: Volume 2014, Article ID 427298, 27 pages, doi:10.1155/2014/427298 (Link)
  • Depner, M.; Tziridis, K.; Hess, A.; Schulze, H. (2014) Sensory cortex lesion triggers compensatory neuronal plasticity. BMC Neuroscience 15:57, doi:10.1186/1471-2202-15-57 (Link)
  • Schulze, H.; Deutscher, A.; Tziridis, K.; Scheich, H. (2014) Unilateral auditory cortex lesions impair or improve discrimination learning of amplitude modulated sounds, depending on lesion side. PLoS One 9(1): e87159, doi: 10.1371/journal.pone.0087159 (Link)
  • Ahlf, S.; Tziridis, K.; Korn, S.; Strohmeyer, I.; Schulze, H. (2012) Predisposition for and prevention of subjective tinnitus development. PLoS ONE 7(10): e44519, doi:10.1371/journal.pone.0044519 (Link)
  • Tziridis, K.; Ahlf, S.; Schulze, H. (2012) A low cost setup for behavioral audiometry in rodents. J. Vis. Exp. (68), e4433, DOI: 10.3791/4433
  • Kurt, S.; Sausbier, M.; Rüttiger, L.; Brandt, N.; Moeller, C.K.; Kindler, J.; Sausbier, U.; Zimmermann, U.; van Straaten, H.; Neuhuber, W.; Engel, J.; Knipper, M.; Ruth, P.; Schulze, H. (2012) Critical role for cochlear hair cell BK channels for coding the temporal structure and dynamic range of auditory information for central auditory processing. FASEB, 26, 1-10 doi: 10.1096/fj.11-200535 (Link)
  • Walter, M., Tziridis, K., Ahlf, S. and Schulze, H.(2012) Context Dependent Auditory Thresholds Determined by Brainstem Audiometry and Prepulse Inhibition in Mongolian Gerbils, Open Journal of Acoustics, 2(1): 34-49. (Link)
  • Schulze, H.; Korn, S.; Ahlf, S.; Tziridis, K. (2011) Wirkung des Ginkgo biloba-Extraktes EGb 761® auf die Entwicklung von zentralem Tinnitus, MedReview, 11: 5.
  • Moeller, C.K.; Kurt, S.; Happel, M.F.K.; Schulze, H. (2010) Long-range effects of GABAergic inhibition in gerbil primary auditory cortex, Europ. J. Neurosci., 31: 49-59.
  • Moeller, C.K.; Kurt, S.; Scheich, H.; Schulze, H. (2009) Improvement of auditory discrimination learning by Ginkgo biloba extract EGb 761®, Neurosci. Lett., 463: 219-222. (PDF)
  • Kurt, S.; Deutscher, A.; Crook, J.M.; Ohl, F.W.; Budinger, E.; Moeller, C.K.; Scheich, H.; Schulze, H. (2008) Auditory Cortical Contrast Enhancing by Global Winner-Take-All Inhibitory Interactions. PLoS ONE 3(3): e1735, doi:10.1371/journal.pone.0001735 (PDF)
  • Kurt, S.; Moeller, C.K.; Jeschke, M.; Schulze, H. (2008) Differential effects of iontophoretic application of the GABAA-antaginists bicuculline and gabazine on tone-evoked local field potentials in primary auditory cortex: Interaction with ketamine anesthesia. Brain Res. 1220, 58-69, doi:10.1016/j.brainres.2007.10.023 (PDF)
  • Tan, J.; Rüttiger, L.; Panford-Walsh, R.; Singer, W.; Schulze, H.; Kilian, S.B.; Hadjab, S.; Zimmermann, U.; Köpschall, I.; Rohbock, K.; Knipper, M. (2007) Tinnitus behavior and hearing function correlate with the reciprocal expression patterns of BDNF and Arg3.1/arc in auditory neurons following acoustic trauma. Neuroscience, 145: 715-726. (PDF)
  • Deutscher, A.; Niessen, H.G.; Angenstein, F.; Goldschmidt, J.; Scheich, H.; Schulze, H. (2006) Comparison of estimates for volumes of brain ablations derived from structural MRI and classical histology. J. Neurosci. Methods, 156: 136-139. (PDF)
  • Schulze, H. (2006) Einige neurobiologische Implikationen für Lehre und Lernen an unseren Schulen. Sonderpädagogische Förderung, 51: 242-261.
  • Deutscher, A.; Kurt, S.; Scheich, H.; Schulze, H. (2006) Cortical and subcortical sides of auditory rhythms and pitches. NeuroReport, 17: 853-856. (PDF)
  • Kurt, S.; Crook, J.M.; Ohl, F.W.; Scheich, H.; Schulze, H. (2006) Differential Effects of Iontophoretic in vivo Application of the GABAA-Antagonists Bicuculline and Gabazine in Sensory Cortex. Hear. Res., 212: 224-235. (PDF)
  • Engelhorn, A.; Ensberg, D.; Deliano, M.; Schulze, H.; Scheich, H.; Ohl, F.W. (2005) Differential sensitivity of early and late components of the auditory cortical middle latency electrically evoked response to change of cortical stimulation site. Acta Acustica united with Acustica, 91: 992-997.
  • Schulze, H.; Hess, A.; Ohl, F.W.; Scheich, H. (2002) Superposition of horseshoe-like periodicity and linear tonotopic maps in auditory cortex of the Mongolian gerbil. Europ. J. Neurosci, 15: 1077-1084. (PDF)
  • Kaernbach, C.; Schulze, H. (2002) Auditory sensory memory for random waveforms in the Mongolian gerbil. Neurosci. Lett., 329: 37-40. (PDF)
  • Schulze, H.; Neubauer, H.; Ohl, F.W.; Hess, A.; Scheich, H. (2002) Representation of stimulus periodicity and its learning induced plasticity in the auditory cortex: Recent findings and new perspectives. Acta Acustica united with Acustica, 88: 399-407.
  • Ohl, F.W.; Schulze, H.; Scheich, H.; Freeman, W.J. (2000) Spatial representation of frequency-modulated tones in gerbil auditory cortex revealed by epidural electrocorticography. J. Physiol. (Paris), 94:549-554. (PDF)
  • Schulze, H.; Langner, G. (1999) Representation of signal periodicity in the auditory cortex. Z. Audiol. Suppl. II: 7-12. (PDF)
  • Schulze, H.; Scheich, H. (1999) Discrimination learning of amplitude modulated tones in Mongolian gerbils. Neurosci. Lett., 261: 13-16. (PDF)
  • Schulze, H.; Langner, G. (1999) Auditory cortical responses to amplitude modulations with spectra above frequency receptive fields: Evidence for wide spectral integration. J. Comp. Physiol. A, 185: 493-508. (PDF)
  • Langner, G.; Sams, M.; Heil, P.; Schulze, H. (1997) Frequency and Periodicity are represented in orthogonal maps in the human auditory cortex: evidence from magnetoencephalography. J. Comp. Physiol. A, 181: 665-676. (PDF)
  • Schulze, H.; Langner, G. (1997a) Periodicity coding in the primary auditory cortex of the Mongolian gerbil (Meriones unguiculatus): Two different coding strategies for pitch and rhythm? J. Comp. Physiol. A, 181: 651-663. (PDF)
  • Schulze, H.; Langner, G. (1997b) Representation of periodicity pitch in the primary auditory cortex of the Mongolian gerbil. Acta Otolaryngol (Stockh), Suppl 532: 89-95.
  • Schulze, H.; Ohl, F.W.; Heil, P.; Scheich, H. (1997) Field specific responses in the auditory cortex of the unanaesthetized Mongolian gerbil to tones and slow frequency modulations. J. Comp. Physiol. A, 181: 573-589. (PDF)
  • Langner, G.; Sams, M.; Heil, P.; Schulze, H. (1996) Nachweis einer orthogonalen Abbildung von Frequenz und Periodentonhöhe im Hörcortex des Menschen durch Magnetoencephalographie. DAGA 22: 376-377.
  • Heil, P.; Schulze, H.; Langner, G. (1995) Ontogenetic development of periodicity coding in the inferior colliculus of the Mongolian gerbil. Auditory Neurosci. 1: 363-383.


Book chapters:

  • Schulze, H.; Kurt, S. (2014) Entscheidungsfindung aus neurowissenschaftlicher Sicht. In: Meier, R. Systemisch-konstruktivistisches Einzel- und Teamcoaching im Management. Verlag Wissenschaft und Praxis, Sternenfels: 249-258.
  • Scheich, H.; Ohl, F.W.; Schulze, H.; Hess, A.; Brechamnn, A. (2005) Auditory cortical maps and states at the interface of sensory bottom-up and top-down processing demands. In: van Hemmen, L. & Sejnowski, T. (eds.) 23 Problems in Systems Neuroscience, Oxford University Press, Oxford.: 343-366.
  • Scheich, H.; Ohl, F.W.; Schulze, H.; Hess, A.; Brechmann, A. (2005) What is reflected in auditory cortex activity: Properties of sound stimuli or what the brain does with them? In: König, R.; Heil, P.; Budinger, E.; Scheich, H. (eds.) The auditory Cortex – A synthesis of Human and Animal Research. Lawrence Erlbaum Assoc., Mahwah (New Jersey), London: 383-407.
  • Schulze, H.; Scheich, H.; Langner, G. (1999) Periodicity coding in the auditory cortex: What can we learn from learning experiments? In: Dau, T.; Hohmann, V.; Kollmeier, B. (eds.) Psychophysics, Physiology and Models of Hearing. World Scientific, Singapore: 21-26. (PDF)
  • Langner, G.; Schulze, H.; Sams, M.; Heil, P. (1996) The topographic representation of periodicity pitch in the auditory cortex. In: Ainsworth, W.; Greenberg, S. (eds.) Auditory basis of speech perception. Keele Univ.: 91-97. (PDF)

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