Tonotopic organisation of the auditory cortex in sloping sensorineural hearing loss

Tomasz Wolak; Katarzyna Cieśla; Artur Lorens; Krzysztof Kochanek; Monika Lewandowska; Mateusz Rusiniak; Agnieszka Pluta; Joanna Wójcik; Henryk Skarżyński

doi:10.1016/j.heares.2017.09.012

Tonotopic organisation of the auditory cortex in sloping sensorineural hearing loss

Hear Res. 2017 Nov:355:81-96. doi: 10.1016/j.heares.2017.09.012. Epub 2017 Sep 28.

Authors

Tomasz Wolak¹, Katarzyna Cieśla², Artur Lorens², Krzysztof Kochanek², Monika Lewandowska², Mateusz Rusiniak², Agnieszka Pluta², Joanna Wójcik², Henryk Skarżyński²

Affiliations

¹ World Hearing Center, Institute of Physiology and Pathology of Hearing, 10 Mochnackiego Street, 02-042, Warszawa, Poland. Electronic address: t.wolak@ifps.org.pl.
² World Hearing Center, Institute of Physiology and Pathology of Hearing, 10 Mochnackiego Street, 02-042, Warszawa, Poland.

PMID: 28987787
DOI: 10.1016/j.heares.2017.09.012

Abstract

Although the tonotopic organisation of the human primary auditory cortex (PAC) has already been studied, the question how its responses are affected in sensorineural hearing loss remains open. Twenty six patients (aged 38.1 ± 9.1 years; 12 men) with symmetrical sloping sensorineural hearing loss (SNHL) and 32 age- and gender-matched controls (NH) participated in an fMRI study using a sparse protocol. The stimuli were binaural 8s complex tones with central frequencies of 400 Hz_CF, 800 Hz_CF, 1600 Hz_CF, 3200 Hz_CF, or 6400 Hz_CF, presented at 80 dB(C). In NH responses to all frequency ranges were found in bilateral auditory cortices. The outcomes of a winnermap approach, showing a relative arrangement of active frequency-specific areas, was in line with the existing literature and revealed a V-shape high-frequency gradient surrounding areas that responded to low frequencies in the auditory cortex. In SNHL frequency-specific auditory cortex responses were observed only for sounds from 400 Hz_CF to 1600 Hz_CF, due to the severe or profound hearing loss in higher frequency ranges. Using a stringent statistical threshold (p < 0.05; FWE) significant differences between NH and SNHL were only revealed for mid and high-frequency sounds. At a more lenient statistical threshold (p < 0.001, FDRc), however, the size of activation induced by 400 Hz_CF in PAC was found statistically larger in patients with a prelingual, as compared to a postlingual onset of hearing loss. In addition, this low-frequency range was more extensively represented in the auditory cortex when outcomes obtained in all patients were contrasted with those revealed in normal hearing individuals (although statistically significant only for the secondary auditory cortex). The outcomes of the study suggest preserved patterns of large-scale tonotopic organisation in SNHL which can be further refined following auditory experience, especially when the hearing loss occurs prelingually. SNHL can induce both enlargement and reduction of the extent of responses in the topically organized auditory cortex.

Keywords: Functional magnetic resonance imaging; Sensorineural hearing loss; Tonotopic organisation of auditory cortex.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Acoustic Stimulation
Adult
Audiometry, Pure-Tone
Auditory Cortex / diagnostic imaging*
Auditory Cortex / physiopathology*
Brain Mapping / methods*
Case-Control Studies
Female
Hearing Loss, Sensorineural / diagnostic imaging*
Hearing Loss, Sensorineural / physiopathology
Hearing*
Humans
Magnetic Resonance Imaging*
Male
Middle Aged
Models, Statistical
Predictive Value of Tests
Young Adult