Interactions of Interaural Time and Level Differences in Spatial Hearing with Cochlear Implants

Sarah Buchholz; Susan Arndt; Jan W. H. Schnupp; Nicole Rosskothen-Kuhl

doi:10.1002/advs.202500918

Interactions of Interaural Time and Level Differences in Spatial Hearing with Cochlear Implants

Sarah Buchholz
, Susan Arndt
, Jan W. H. Schnupp^*
, Nicole Rosskothen-Kuhl^*

^*Corresponding author for this work

Department of Neuroscience

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

Abstract

Normally hearing humans can localize sound sources quite accurately, with minimum audible angles as small as 1°. To achieve this, these auditory pathways combine information from multiple acoustic cues, including interaural time and interaural level differences (ITDs and ILDs). Patients relying on cochlear implants (CIs) to hear the world do not match normal performance. These deficits are most pronounced in patients with little or no hearing experience early in life, and they appear to result from impaired sensitivity to ITDs, but not to ILDs. However, little is known about how ITD and ILD sensitivities develop and interact in an early deafened auditory system shortly after CI implantation. neonatally deafened rats with bilateral CIs are fitted, and, providing informative ITDs and ILDs from stimulation onset, trained them to lateralize CI stimuli. These animals are exquisitely sensitive to both ILDs and ITDs of CI stimulus pulses, and combined information from both cues in a weighted sum. Importantly, ITDs are weighted heavily in the CI rats, such that only very modest ITDs pointing in one direction can confound quite large ILDs pointing in the opposite direction. This underlines the importance of informative ITDs for maximizing the potential for spatial hearing with CI devices. © 2025 The Author(s).

Original language	English
Article number	e00918
Number of pages	12
Journal	Advanced Science
DOIs	https://doi.org/10.1002/advs.202500918
Publication status	Online published - 14 Nov 2025

Funding

The work leading to this publication was supported by the German Academic Exchange Service (DAAD) with funds from the German Federal Ministry of Education and Research (BMBF) and the People Programme (Marie Curie Actions) of the European Union's Seventh Framework Programme (FP7/2007-2013) under REA grant agreement n° 605728 (P.R.I.M.E.—Postdoctoral Researchers International Mobility Experience), the Research Commission of the Medical Faculty of the Medical Center at the University of Freiburg, and the charity “Taube Kinder lernen hören e. V.”, MED-EL Medical Electronics, Innsbruck, Austria (Research Agreement PVFR2019/2), as well as grants from the Hong Kong General Research Fund (11100219, 11101020 & 11103823), the Shenzhen Science Technology and Innovation Committee (JCYJ20180307124024360) and the Martin Lee Centre for Innovations in Hearing Health at Macquarie University. Eighteen cochlear implant animal arrays and the cochlear implant images of the graphical abstract were kindly provided by MED-EL Medical Electronics, Innsbruck, Austria (Research Agreement PVFR2019/2). The authors thank Theresa Preyer and Henrike Budig for their assistance in collecting data.

Research Keywords

auditory neuroscience
auditory prostheses
cochlear implants

RGC Funding Information

RGC-funded

Access Output

10.1002/advs.202500918

Other Access Options

Check CityUHK Library

Permanent Link

Right click to copy link

Cite this

@article{95587a0ea0684ef3917c2219e80b1e1c,

title = "Interactions of Interaural Time and Level Differences in Spatial Hearing with Cochlear Implants",

abstract = "Normally hearing humans can localize sound sources quite accurately, with minimum audible angles as small as 1°. To achieve this, these auditory pathways combine information from multiple acoustic cues, including interaural time and interaural level differences (ITDs and ILDs). Patients relying on cochlear implants (CIs) to hear the world do not match normal performance. These deficits are most pronounced in patients with little or no hearing experience early in life, and they appear to result from impaired sensitivity to ITDs, but not to ILDs. However, little is known about how ITD and ILD sensitivities develop and interact in an early deafened auditory system shortly after CI implantation. neonatally deafened rats with bilateral CIs are fitted, and, providing informative ITDs and ILDs from stimulation onset, trained them to lateralize CI stimuli. These animals are exquisitely sensitive to both ILDs and ITDs of CI stimulus pulses, and combined information from both cues in a weighted sum. Importantly, ITDs are weighted heavily in the CI rats, such that only very modest ITDs pointing in one direction can confound quite large ILDs pointing in the opposite direction. This underlines the importance of informative ITDs for maximizing the potential for spatial hearing with CI devices. {\textcopyright} 2025 The Author(s).",

keywords = "auditory neuroscience, auditory prostheses, cochlear implants",

author = "Sarah Buchholz and Susan Arndt and Schnupp, \{Jan W. H.\} and Nicole Rosskothen-Kuhl",

year = "2025",

month = nov,

day = "14",

doi = "10.1002/advs.202500918",

language = "English",

journal = "Advanced Science",

issn = "2198-3844",

publisher = "Wiley-VCH Verlag GmbH",

}

TY - JOUR

T1 - Interactions of Interaural Time and Level Differences in Spatial Hearing with Cochlear Implants

AU - Buchholz, Sarah

AU - Arndt, Susan

AU - Schnupp, Jan W. H.

AU - Rosskothen-Kuhl, Nicole

PY - 2025/11/14

Y1 - 2025/11/14

N2 - Normally hearing humans can localize sound sources quite accurately, with minimum audible angles as small as 1°. To achieve this, these auditory pathways combine information from multiple acoustic cues, including interaural time and interaural level differences (ITDs and ILDs). Patients relying on cochlear implants (CIs) to hear the world do not match normal performance. These deficits are most pronounced in patients with little or no hearing experience early in life, and they appear to result from impaired sensitivity to ITDs, but not to ILDs. However, little is known about how ITD and ILD sensitivities develop and interact in an early deafened auditory system shortly after CI implantation. neonatally deafened rats with bilateral CIs are fitted, and, providing informative ITDs and ILDs from stimulation onset, trained them to lateralize CI stimuli. These animals are exquisitely sensitive to both ILDs and ITDs of CI stimulus pulses, and combined information from both cues in a weighted sum. Importantly, ITDs are weighted heavily in the CI rats, such that only very modest ITDs pointing in one direction can confound quite large ILDs pointing in the opposite direction. This underlines the importance of informative ITDs for maximizing the potential for spatial hearing with CI devices. © 2025 The Author(s).

AB - Normally hearing humans can localize sound sources quite accurately, with minimum audible angles as small as 1°. To achieve this, these auditory pathways combine information from multiple acoustic cues, including interaural time and interaural level differences (ITDs and ILDs). Patients relying on cochlear implants (CIs) to hear the world do not match normal performance. These deficits are most pronounced in patients with little or no hearing experience early in life, and they appear to result from impaired sensitivity to ITDs, but not to ILDs. However, little is known about how ITD and ILD sensitivities develop and interact in an early deafened auditory system shortly after CI implantation. neonatally deafened rats with bilateral CIs are fitted, and, providing informative ITDs and ILDs from stimulation onset, trained them to lateralize CI stimuli. These animals are exquisitely sensitive to both ILDs and ITDs of CI stimulus pulses, and combined information from both cues in a weighted sum. Importantly, ITDs are weighted heavily in the CI rats, such that only very modest ITDs pointing in one direction can confound quite large ILDs pointing in the opposite direction. This underlines the importance of informative ITDs for maximizing the potential for spatial hearing with CI devices. © 2025 The Author(s).

KW - auditory neuroscience

KW - auditory prostheses

KW - cochlear implants

UR - https://www.webofscience.com/wos/woscc/full-record/WOS:001614726700001

U2 - 10.1002/advs.202500918

DO - 10.1002/advs.202500918

M3 - RGC 21 - Publication in refereed journal

SN - 2198-3844

JO - Advanced Science

JF - Advanced Science

M1 - e00918

ER -

Interactions of Interaural Time and Level Differences in Spatial Hearing with Cochlear Implants

Abstract

Funding

Research Keywords

RGC Funding Information

Access Output

Other Access Options

Permanent Link

Other Files and Links

Fingerprint

GRF-ExtU-Lead: How Does Experience Shape Binaural Cue Interaction In Bionic Hearing?

GRF: How Does Experience Shape Binaural Cue Interaction In Bionic Hearing?

GRF: Sensitivity to Envelope and Pulse Timing Interaural Time Differences in Prosthetic Hearing

Cite this

Interactions of Interaural Time and Level Differences in Spatial Hearing with Cochlear Implants

Abstract

Funding

Research Keywords

RGC Funding Information

Access Output

Other Access Options

Permanent Link

Other Files and Links

Fingerprint

Projects

GRF-ExtU-Lead: How Does Experience Shape Binaural Cue Interaction In Bionic Hearing?

GRF: How Does Experience Shape Binaural Cue Interaction In Bionic Hearing?

GRF: Sensitivity to Envelope and Pulse Timing Interaural Time Differences in Prosthetic Hearing

Cite this