Development of a flexible modeling environment for evaluating subcortical auditory systems

Cochlear Synaptopathy (CS) is an emerging topic of hearing research that focuses on peripheral pathologies which leave pure-tone audiometric thresholds (PTA) unchanged but significantly impair threshold-independent hearing performance. Primary among the proposed mechanisms of CS is selective damage...

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Main Author: Voysey, Graham Elliott
Language:en_US
Published: 2016
Subjects:
Online Access:https://hdl.handle.net/2144/19520
id ndltd-bu.edu-oai-open.bu.edu-2144-19520
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spelling ndltd-bu.edu-oai-open.bu.edu-2144-195202019-04-02T06:54:24Z Development of a flexible modeling environment for evaluating subcortical auditory systems Voysey, Graham Elliott Biomedical engineering Auditory Hearing Modeling Software Cochlear Synaptopathy (CS) is an emerging topic of hearing research that focuses on peripheral pathologies which leave pure-tone audiometric thresholds (PTA) unchanged but significantly impair threshold-independent hearing performance. Primary among the proposed mechanisms of CS is selective damage of low spontaneous rate (low SR) fibers of the auditory nerve (AN), yet no noninvasive quantitative measure of CS yet exists in humans. Recent work has established a relationship between Wave V latencies and a psychophysical measure of CS in humans, but current biophysical models do not fully account for the observed results. To begin to address the discrepancies between these experiments and biophysical models of hearing, a new comprehensive modeling tool was developed which allows parametric exploration of modeling space and direct comparison between major models of the auditory nerve and brainstem. More sophisticated models of the midbrain and brainstem were incorporated into the new modeling tool. Incorporating recent anatomical and electrophysiological results, which suggest a varying contribution of low-SR fibers for different audible frequencies, further addresses modeling efficacy. 2016-12-06T13:30:29Z 2016-12-06T13:30:29Z 2016 2016-11-05T01:08:02Z Thesis/Dissertation https://hdl.handle.net/2144/19520 en_US Attribution 4.0 International http://creativecommons.org/licenses/by/4.0/
collection NDLTD
language en_US
sources NDLTD
topic Biomedical engineering
Auditory
Hearing
Modeling
Software
spellingShingle Biomedical engineering
Auditory
Hearing
Modeling
Software
Voysey, Graham Elliott
Development of a flexible modeling environment for evaluating subcortical auditory systems
description Cochlear Synaptopathy (CS) is an emerging topic of hearing research that focuses on peripheral pathologies which leave pure-tone audiometric thresholds (PTA) unchanged but significantly impair threshold-independent hearing performance. Primary among the proposed mechanisms of CS is selective damage of low spontaneous rate (low SR) fibers of the auditory nerve (AN), yet no noninvasive quantitative measure of CS yet exists in humans. Recent work has established a relationship between Wave V latencies and a psychophysical measure of CS in humans, but current biophysical models do not fully account for the observed results. To begin to address the discrepancies between these experiments and biophysical models of hearing, a new comprehensive modeling tool was developed which allows parametric exploration of modeling space and direct comparison between major models of the auditory nerve and brainstem. More sophisticated models of the midbrain and brainstem were incorporated into the new modeling tool. Incorporating recent anatomical and electrophysiological results, which suggest a varying contribution of low-SR fibers for different audible frequencies, further addresses modeling efficacy.
author Voysey, Graham Elliott
author_facet Voysey, Graham Elliott
author_sort Voysey, Graham Elliott
title Development of a flexible modeling environment for evaluating subcortical auditory systems
title_short Development of a flexible modeling environment for evaluating subcortical auditory systems
title_full Development of a flexible modeling environment for evaluating subcortical auditory systems
title_fullStr Development of a flexible modeling environment for evaluating subcortical auditory systems
title_full_unstemmed Development of a flexible modeling environment for evaluating subcortical auditory systems
title_sort development of a flexible modeling environment for evaluating subcortical auditory systems
publishDate 2016
url https://hdl.handle.net/2144/19520
work_keys_str_mv AT voyseygrahamelliott developmentofaflexiblemodelingenvironmentforevaluatingsubcorticalauditorysystems
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