Human listeners can direct top-down spatial auditory attention to listen selectively to one sound source amidst competing sounds. However, many listeners with hearing loss (HL) have trouble on tasks requiring selective auditory attention; even listeners with normal hearing thresholds (NHTs) differ in this ability. Selective attention depends on both top-down executive control and coding fidelity of the peripheral auditory system. Here we explore how low-level sensory perception and high-level attentional modulation interact to contribute to auditory selective attention for listeners with NHTs and HL. In the first study, we designed a paradigm to allow simultaneous measurement of envelope following responses (EFRs), onset event-related potentials (ERPs), and behavioral performance. We varied conditions to alter the degree to which the bottleneck limiting behavior was due to the coding of fine stimulus details vs. top-down control of attentional focus. We found attention modulated ERPs, from cortex, but not EFRs from the brainstem. Importantly, when coding fidelity limited the task, EFRs but not ERPs correlated with behavior; conversely, when sensory cues for segregation were robust, individual behavior correlated with both EFR strength and strength of attentional modulation of cortical responses. In the second study, we explored how HL affects control of auditory selective attention. Listeners with NHTs or with HL identified a simple melody presented simultaneously with two competing melodies, each from different spatial locations. Compared to NHT listeners, HL listeners both performed more poorly and showed less robust attentional modulation of cortical ERPs. While both groups showed some cortical suppression of distracting streams, this modulation was weaker in HL listeners, especially when spatial separation between attended and distracting streams was small. In the final study, we compared temporal coding precision in listeners with NHT and HL using both behavioral and physiological measures. We found that listeners with HL are more sensitive than listeners with NHT to amplitude modulation in both measures. Within the NHT listener group, we found a strong correlation between behavioral and electrophysiological measurements, consistent with cochlear synaptopathy. Overall, these studies demonstrate that everyday communication abilities depend jointly on both low-level differences in sensory coding and high-level ability to control attention.
| Identifer | oai:union.ndltd.org:bu.edu/oai:open.bu.edu:2144/27458 |
| Date | 20 February 2018 |
| Creators | Dai, Lengshi |
| Source Sets | Boston University |
| Language | en_US |
| Detected Language | English |
| Type | Thesis/Dissertation |
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