Transformation of Binaural Response Properties in the Ascending Auditory Pathway: Influence of Time-Varying Interaural Phase Disparity

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Transformation of Binaural Response Properties in the Ascending Auditory Pathway: Influence of Time-Varying Interaural Phase Disparity

Matthew W. Spitzer¹ and Malcolm N. Semple²

¹ Vision, Touch and Hearing Research Centre, Department of Physiology and Pharmacology, The University of Queensland, St. Lucia, Queensland 4072, Australia; and ² Center for Neural Science, New York University, New York 10003

Spitzer, Matthew W. and Malcolm N. Semple. Transformation of binaural response properties in the ascending auditorypathway: influence of time-varying interaural phase disparity.J. Neurophysiol. 80: 3062-3076, 1998. Previous studies demonstratedthat tuning of inferior colliculus (IC) neurons to interauralphase disparity (IPD) is often profoundly influenced by temporalvariation of IPD, which simulates the binaural cue produced bya moving sound source. To determine whether sensitivity to simulatedmotion arises in IC or at an earlier stage of binaural processingwe compared responses in IC with those of two major IPD-sensitiveneuronal classes in the superior olivary complex (SOC), neuronswhose discharges were phase locked (PL) to tonal stimuli and thosethat were nonphase locked (NPL). Time-varying IPD stimuli consistedof binaural beats, generated by presenting tones of slightly differentfrequencies to the two ears, and interaural phase modulation (IPM),generated by presenting a pure tone to one ear and a phase modulatedtone to the other. IC neurons and NPL-SOC neurons were more sharplytuned to time-varying than to static IPD, whereas PL-SOC neuronswere essentially uninfluenced by the mode of stimulus presentation.Preferred IPD was generally similar in responses to static andtime-varying IPD for all unit populations. A few IC neurons werehighly influenced by the direction and rate of simulated motion,but the major effect for most IC neurons and all SOC neurons wasa linear shift of preferred IPD at high rates $---$ attributable toresponse latency. Most IC and NPL-SOC neurons were strongly influencedby IPM stimuli simulating motion through restricted ranges ofazimuth; simulated motion through partially overlapping azimuthalranges elicited discharge profiles that were highly discontiguous,indicating that the response associated with a particular IPDis dependent on preceding portions of the stimulus. In contrast,PL-SOC responses tracked instantaneous IPD throughout the trajectoryof simulated motion, resulting in highly contiguous dischargeprofiles for overlapping stimuli. This finding indicates thatresponses of PL-SOC units to time-varying IPD reflect only instantaneousIPD with no additional influence of dynamic stimulus attributes.Thus the neuronal representation of auditory spatial informationundergoes a major transformation as interaural delay is initiallyprocessed in the SOC and subsequently reprocessed in IC. The findingthat motion sensitivity in IC emerges from motion-insensitiveinput suggests that information about change of position is crucialto spatial processing at higher levels of the auditory system.

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