Altered Spectral Localization Cues Disrupt the Development of the Auditory Space Map in the Superior Colliculus of the Ferret

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Altered Spectral Localization Cues Disrupt the Development of the Auditory Space Map in the Superior Colliculus of the Ferret

Jan W. H. Schnupp, Andrew J. King, and Simon Carlile

University Laboratory of Physiology, Oxford OX1 3PT, United Kingdom

Schnupp, Jan W. H., Andrew J. King, and Simon Carlile. Altered spectral localization cues disrupt the development ofthe auditory space map in the superior colliculus of the ferret.J. Neurophysiol. 79: 1053-1069, 1998. Spectral localization cuesprovided by the outer ear are utilized in the construction ofthe auditory space map in the superior colliculus (SC). The roleof the outer ear in the development of this map was examined byrecording from the SC of anesthetized, adult ferrets in whichthe pinna and concha had been removed in infancy. The acousticalconsequences of this procedure were assessed by recording outerear impulse responses via a probe-tube microphone implanted inthe wall of the ear canal. Both monaural and binaural spectralcues normally show a number of asymmetric features within thehorizontal plane, which allow azimuthal locations on either sideof the interaural axis to be discriminated. These features wereeliminated or altered by chronic pinnectomy. The responses ofauditory units in the SC to noise bursts presented in the freefield were examined at sound levels of ~10 and 25 dB above unitthreshold. After bilateral pinnectomy, the representation of auditoryspace was severely degraded at both sound levels. In contrastto normal ferrets, many units had bilobed azimuthal response profiles,indicating that they were unable to resolve sound locations oneither side of the interaural axis. There was also much less orderin the distribution of best azimuths or elevations of those unitsthat were tuned to a single direction. Some units were tuned tolocations that extended much further into the hemifield ipsilateralto the recording side than the normal range of best azimuths.Unilateral removal of the outer ear, which disrupts the monauralspectral cues for one side only, had a much smaller effect onthe development of the auditory representation. At supra- andnear-threshold sound levels, the representation of sound azimuthin the SC on both sides of the brain was less scattered than thatfound after bilateral pinna removal. Nevertheless, units withbilobed responses, broader tuning, and inappropriate best azimuthswere observed in both the left and right SC of ferrets in whichthe left pinna and concha had been removed in infancy. These dataillustrate that the localization cues provided by the outer earplay a critical role in the development of the auditory spacemap in the SC. In contrast to other manipulations of either auditoryor visual inputs, the map does not appear to adapt to the changesin spectral cues brought about by pinna removal, suggesting thatresidual binaural cues are, by themselves, insufficient for itsnormal maturation.

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