Spatial tuning to virtual sounds in the inferior colliculus of the guinea pig

doi:10.1152/jn.00348.2003

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Spatial tuning to virtual sounds in the inferior colliculus of the guinea pig

Susanne J Sterbing¹^*, Klaus Hartung², and Klaus-Peter Hoffmann¹

¹ Zoology and Neurobiology, Ruhr University, Bochum, Germany
² Communication Acoustics, Ruhr University, Bochum, Germany

^* To whom correspondence should be addressed. E-mail: sterbing{at}neuron.uchc.edu.

How do neurons in the inferior colliculus (IC) encode the spatiallocation of sound? We have addressed this question using a virtualauditory environment. For this purpose, the individual head-relatedtransfer functions (HRTFs) of 18 guinea pigs were measured underfree-field conditions for 122 locations covering the upper hemisphere.From 257 neurons, 94% responded to the short (50ms) white noisestimulus at 70 dB SPL. Out of these neurons, 80% were spatiallytuned with a receptive field that is smaller than a hemi-field(at 70 dB). The remainder responded omni-directionally or showedfractured receptive fields. The majority of the neurons preferreddirections in the contralateral hemisphere. However, preferencefor front or rear positions, and high elevations occurred frequently.For stimulation at 70 dB SPL, the average diameter of the receptivefields, based on half-maximal response, was less than a quarterof the upper hemisphere. Neurons that preferred frontal directionsresponded weakly or showed no response to posterior directionsand vice versa. Hence, front/back discrimination is presentat the single neuron level in the IC. When non-individual HRTFswere used to create the stimuli, the spatial receptive fieldsof most neurons became larger, split into several parts, changedposition, or the response became omni-directional. Variationof absolute sound intensity had little effect on the preferreddirections of the neurons over a range of 20 to 40 dB abovethreshold. With increasing intensity, most receptive fieldsremained constant or expanded. Furthermore, we tested the influenceof binaural decorrelation and stimulus bandwidth on spatialtuning. The vast majority of neurons with a low characteristicfrequency (< 2.5 kHz) lost spatial tuning under stimulationwith binaurally uncorrelated noise, while high-frequency unitswere mostly unaffected. Most neurons that showed spatial tuningunder broadband stimulation (white noise and 1 octave wide noise)turned omni-directional when stimulated with 1/3 octave widenoise.

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