Abstract
The capacity of healthy adult listeners to accommodate to altered spectral cues to the source locations of broadband sounds has now been well documented. In recent years we have demonstrated that the degree and speed of accommodation are improved by using an integrated sensory-motor training protocol under anechoic conditions. Here we demonstrate that the learning which underpins the localization performance gains during the accommodation process using anechoic broadband training stimuli generalize to environmentally relevant scenarios. As previously, alterations to monaural spectral cues were produced by fitting participants with custom-made outer ear molds, worn during waking hours. Following acute degradations in localization performance, participants then underwent daily sensory-motor training to improve localization accuracy using broadband noise stimuli over ten days. Participants not only demonstrated post-training improvements in localization accuracy for broadband noises presented in the same set of positions used during training, but also for stimuli presented in untrained locations, for monosyllabic speech sounds, and for stimuli presented in reverberant conditions. These findings shed further light on the neuroplastic capacity of healthy listeners, and represent the next step in the development of training programs for users of assistive listening devices which degrade localization acuity by distorting or bypassing monaural cues.
Highlights
Several recent studies have investigated plasticity in the adult human auditory system when monaural cues are altered[5,6,7,8,9,10]
Our laboratory used a sensory-motor training paradigm to accelerate accommodation to altered spectral cues, using localization performance of broadband noises presented over a closed set of spatial locations under anechoic conditions as our baseline and test metric[8]
This study first investigated the immediate effect of wearing outer ear inserts on the localization of broadband noise stimuli in anechoic conditions
Summary
Several recent studies have investigated plasticity in the adult human auditory system when monaural cues are altered[5,6,7,8,9,10]. Our laboratory found a similar improvement when subjects combined exploratory behavior with continuous auditory input when compared to visual input alone[8] Taken together, these studies suggest that auditory-motor interaction is a main driver of accommodation, and that visual input is not necessary for learning a new map of auditory space. When a complex waveform was used to train interaural level difference discrimination, subjects demonstrated improvements in making similar discriminations for other, untrained complex sounds[24] This generalizability was presumably due to the increased availability of spectral information in both the complex training and test stimuli in comparison to pure tones. Our laboratory used a sensory-motor training paradigm to accelerate accommodation to altered spectral cues, using localization performance of broadband noises presented over a closed set of spatial locations under anechoic conditions as our baseline and test metric[8]. We sought to: reproduce the accommodation we had previously observed using our exploratory audio-visual feedback system which relies on broadband noise signals; examine localization performance of broadband noise stimuli at untrained positions under anechoic conditions; compare this to localization ability in echoic conditions; and examine whether this learning generalized to more spectro-temporally dynamic speech stimuli
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