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Journal Abstract Search

408 related items for PubMed ID: 12037566

  • 21. Spectral composition of concurrent noise affects neuronal sensitivity to interaural time differences of tones in the dorsal nucleus of the lateral lemniscus.
    Siveke I, Leibold C, Grothe B.
    J Neurophysiol; 2007 Nov; 98(5):2705-15. PubMed ID: 17699697
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  • 23. Activity-Dependent Calcium Signaling in Neurons of the Medial Superior Olive during Late Postnatal Development.
    Franzen DL, Gleiss SA, Kellner CJ, Kladisios N, Felmy F.
    J Neurosci; 2020 Feb 19; 40(8):1689-1700. PubMed ID: 31949105
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  • 24. The role of dendrites in auditory coincidence detection.
    Agmon-Snir H, Carr CE, Rinzel J.
    Nature; 1998 May 21; 393(6682):268-72. PubMed ID: 9607764
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  • 25. Glycinergic inhibition tunes coincidence detection in the auditory brainstem.
    Myoga MH, Lehnert S, Leibold C, Felmy F, Grothe B.
    Nat Commun; 2014 May 07; 5():3790. PubMed ID: 24804642
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  • 26. Neural sensitivity to interaural time differences: beyond the Jeffress model.
    Fitzpatrick DC, Kuwada S, Batra R.
    J Neurosci; 2000 Feb 15; 20(4):1605-15. PubMed ID: 10662850
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  • 28. Distribution of Glutamatergic and Glycinergic Inputs onto Human Auditory Coincidence Detector Neurons.
    Mansour Y, Kulesza R.
    Neuroscience; 2021 Aug 01; 468():75-87. PubMed ID: 34126187
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  • 30. Interaural timing cues do not contribute to the map of space in the ferret superior colliculus: a virtual acoustic space study.
    Campbell RA, Doubell TP, Nodal FR, Schnupp JW, King AJ.
    J Neurophysiol; 2006 Jan 01; 95(1):242-54. PubMed ID: 16162823
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  • 32. A matter of time: internal delays in binaural processing.
    Joris P, Yin TC.
    Trends Neurosci; 2007 Feb 01; 30(2):70-8. PubMed ID: 17188761
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  • 33. Physiology and anatomy of neurons in the medial superior olive of the mouse.
    Fischl MJ, Burger RM, Schmidt-Pauly M, Alexandrova O, Sinclair JL, Grothe B, Forsythe ID, Kopp-Scheinpflug C.
    J Neurophysiol; 2016 Dec 01; 116(6):2676-2688. PubMed ID: 27655966
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  • 34. Enhanced sound perception by widespread-onset neuronal responses in auditory cortex.
    Hoshino O.
    Neural Comput; 2007 Dec 01; 19(12):3310-34. PubMed ID: 17970655
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  • 35. The synthesis and use of the owl's auditory space map.
    Takahashi TT, Bala AD, Spitzer MW, Euston DR, Spezio ML, Keller CH.
    Biol Cybern; 2003 Nov 01; 89(5):378-87. PubMed ID: 14669018
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  • 36. Role of GABAergic inhibition in the coding of interaural time differences of low-frequency sounds in the inferior colliculus.
    D'Angelo WR, Sterbing SJ, Ostapoff EM, Kuwada S.
    J Neurophysiol; 2005 Jun 01; 93(6):3390-400. PubMed ID: 15647399
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  • 37. In vivo Whole-Cell Recordings Combined with Electron Microscopy Reveal Unexpected Morphological and Physiological Properties in the Lateral Nucleus of the Trapezoid Body in the Auditory Brainstem.
    Franken TP, Smith PH, Joris PX.
    Front Neural Circuits; 2016 Jun 01; 10():69. PubMed ID: 27605909
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  • 38. On the localization of complex sounds: temporal encoding based on input-slope coincidence detection of envelopes.
    Gai Y, Kotak VC, Sanes DH, Rinzel J.
    J Neurophysiol; 2014 Aug 15; 112(4):802-13. PubMed ID: 24848460
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  • 39. Local inhibition shapes duration tuning in the inferior colliculus of guinea pigs.
    Yin S, Chen Z, Yu D, Feng Y, Wang J.
    Hear Res; 2008 Mar 15; 237(1-2):32-48. PubMed ID: 18255245
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  • 40. Responses of ventral cochlear nucleus neurons to contralateral sound after conductive hearing loss.
    Sumner CJ, Tucci DL, Shore SE.
    J Neurophysiol; 2005 Dec 15; 94(6):4234-43. PubMed ID: 16093339
    [Abstract] [Full Text] [Related]

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