Sensitivity to an Illusion of Sound Location in Human Auditory Cortex.

Nathan C Higgins,G Christopher Stecker,Susan A Mclaughlin,Sandra Da Costa

doi:10.3389/fnsys.2017.00035

Nathan C Higgins, G Christopher Stecker + Show 2 more

Open Access

https://doi.org/10.3389/fnsys.2017.00035

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Abstract

Human listeners place greater weight on the beginning of a sound compared to the middle or end when determining sound location, creating an auditory illusion known as the Franssen effect. Here, we exploited that effect to test whether human auditory cortex (AC) represents the physical vs. perceived spatial features of a sound. We used functional magnetic resonance imaging (fMRI) to measure AC responses to sounds that varied in perceived location due to interaural level differences (ILD) applied to sound onsets or to the full sound duration. Analysis of hemodynamic responses in AC revealed sensitivity to ILD in both full-cue (veridical) and onset-only (illusory) lateralized stimuli. Classification analysis revealed regional differences in the sensitivity to onset-only ILDs, where better classification was observed in posterior compared to primary AC. That is, restricting the ILD to sound onset—which alters the physical but not the perceptual nature of the spatial cue—did not eliminate cortical sensitivity to that cue. These results suggest that perceptual representations of auditory space emerge or are refined in higher-order AC regions, supporting the stable perception of auditory space in noisy or reverberant environments and forming the basis of illusions such as the Franssen effect.

Highlights

When human listeners localize sounds in space they make use of several different acoustic cues, including interaural time differences (ITD) and interaural level differences (ILD), as well as monaural spectral cues
In contrast to that expectation, ILD tuning functions observed in the onset-only condition show clear modulation by ILD (Figure 2A; right Heschl’s gyrus (HG): F(8,8) = 3.0, p < 0.05; left HG: F(8,8) = 1.86, n.s.; right posterior superior temporal gyrus (pSTG): F(8,8) = 3.01, p < 0.05; left pSTG: F(8,8) = 2.17, p < 0.05), which appears generally consistent with the shape of full-cue ILD tuning functions
The results of this study suggest that blood oxygenation level dependent (BOLD) responses in human auditory cortex (AC) are sensitive to the perceived, and not merely the physical features of sound location

Summary

Introduction

When human listeners localize sounds in space they make use of several different acoustic cues, including interaural time differences (ITD) and interaural level differences (ILD), as well as monaural spectral cues. The magnitude and reliability of each cue varies significantly across frequency and over time; the perception of sound location remains stable. This illusion occurs when the onset (i.e., the first few milliseconds) and the remainder of a sound are presented from different loudspeakers in a room. The Franssen effect is strong for tonal stimuli presented in reverberant space, a situation in which ongoing cues are rendered ambiguous

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