Owlstown Text-Only

insert name here

Auditory neuroscience
Go to full site

Temporary unilateral hearing loss during development impairs behavioral and neural sensitivity to interaural level difference cues for sound localization

Journal article

Kelsey L. Anbuhl, Nathaniel T. Greene, Andrew D. Brown, V. Benichoux, Alexander T. Ferber, D. Tollin
2016
Semantic Scholar DOI
Cite

Cite

APA   Click to copy
Anbuhl, K. L., Greene, N. T., Brown, A. D., Benichoux, V., Ferber, A. T., & Tollin, D. (2016). Temporary unilateral hearing loss during development impairs behavioral and neural sensitivity to interaural level difference cues for sound localization.

Chicago/Turabian   Click to copy
Anbuhl, Kelsey L., Nathaniel T. Greene, Andrew D. Brown, V. Benichoux, Alexander T. Ferber, and D. Tollin. “Temporary Unilateral Hearing Loss during Development Impairs Behavioral and Neural Sensitivity to Interaural Level Difference Cues for Sound Localization” (2016).

MLA   Click to copy
Anbuhl, Kelsey L., et al. Temporary Unilateral Hearing Loss during Development Impairs Behavioral and Neural Sensitivity to Interaural Level Difference Cues for Sound Localization. 2016.

BibTeX   Click to copy 

@article{kelsey2016a,
  title = {Temporary unilateral hearing loss during development impairs behavioral and neural sensitivity to interaural level difference cues for sound localization},
  year = {2016},
  author = {Anbuhl, Kelsey L. and Greene, Nathaniel T. and Brown, Andrew D. and Benichoux, V. and Ferber, Alexander T. and Tollin, D.}
}

Abstract

Children who experience persistent conductive hearing loss (CHL) early in life often display binaural hearing impairments that persist long after CHL is resolved, suggesting abnormal central auditory development. Abnormal sensitivity to interaural level differences (ILDs) is particularly likely as a CHL (such as an ear infection) can attenuate sound in the affected ear by >30 dB, dramatically distorting ILD cues. Here, we quantified the effects of unilateral CHL on (1) behavioral spatial acuity and (2) neural information processing of ILD cues in the guinea pig auditory midbrain (inferior colliculus, IC) using the mathematical framework of Fisher information (FI). Animals raised with unilateral CHL displayed larger minimum audible angles for high-pass noise compared to age-matched controls, suggesting impaired ILD sensitivity. Based on acoustic directional transfer function measurements, ILD discrimination thresholds were elevated by ~3–6 dB. Following behavior, extracellular recordings were made in the I...