Introduction: The study aimed to investigate binaural cues in the rehabilitation of unilateral occluded ears with a bone conduction hearing aid. Methods: The study sample consisted of 40 adult volunteers with normal hearing. Unilateral pseudo-conductive hearing loss was induced by inserting an earplug into the external auditory canal (EAC) and silicone material in the concha for ear impression. The adaptive speech-in-noise test (Italian Matrix test) was performed in three spatial orientations to assess binaural cues (summation, squelch, and head shadow effects). All evaluations were performed in the normal condition, after EAC occlusion, and after application of an adhesive bone conduction hearing aid. Binaural contrast differences were calculated in the three conditions. Results: In the EAC occlusion condition, there was a significant increase in the signal-to-noise ratio (SNR) in both the S0N0 (2.4 dB) and the S90N−90 (7.7 dB) settings, and a slight albeit significant increase in the S0N90 setting (1.35 dB). After fitting the BC hearing aid, there was a reduction of −1.8 dB SNR (p < 0.001) in the S0N0 setting and −2 dB (p = 0.003) in the S90N−90 setting. There was no improvement in the SNR (p = 0.405) in evaluation of the squelch effect (S0N90). These data were corroborated by a better binaural contrast due to a reduction in the summation effect in the monaural occlusion condition and a subsequent reduction in binaural contrast after fitting the hearing aid due to an increase in the summation effect (−2.5 dB vs. 0.3 dB; p < 0.001). Conclusions: Application of a bone conduction hearing aid in unilateral pseudo-conductive hearing loss strengthens speech recognition of noise by improving the summation effect and impeding the shadow effect of the head; however, there appears to be no improvement in speech perception in noise due to spatial release from masking.

Journal Section:
Research Article
Keywords:
Conductive hearing loss, Binaural hearing, Bone conduction hearing aids
1.
Agterberg
MJH
,
Hol
MKS
,
Cremers
CWRJ
,
Mylanus
EAM
,
van Opstal
AJ
,
Snik
AFM
.
Conductive hearing loss and bone conduction devices: restored binaural hearing
.
Adv Otorhinolaryngol
.
2011
;
71
:
84
91
.
Google Scholar
PubMed
 
2.
Alexander
NL
,
Silva
RC
,
Barton
G
,
Liu
YC
.
Acquisition limitations of bone conduction hearing devices in children with unilateral microtia and atresia
.
Int J Pediatr Otorhinolaryngol
.
2020
;
134
:
110040
.
Google Scholar
Crossref
Search ADS
PubMed
 
3.
Bance
M
,
Abel
SM
,
Papsin
BC
,
Wade
P
,
Vendramini
J
.
A comparison of the audiometric performance of bone anchored hearing aids and air conduction hearing aids
.
Otol Neurotol
.
2002
;
23
(
6
):
912
9
.
Google Scholar
Crossref
Search ADS
PubMed
 
4.
Brand
T
,
Kollmeier
B
.
Efficient adaptive procedures for threshold and concurrent slope estimates for psychophysics and speech intelligibility tests
.
J Acoust Soc Am
.
2002 Jun
;
111
(
6
):
2801
10
.
Google Scholar
Crossref
Search ADS
PubMed
 
5.
Canale
A
,
Ndrev
D
,
Sapino
S
,
Bianchi
C
,
Bordino
V
,
Albera
A
.
Speech in noise with bilateral active bone conduction implant for conductive and mixed hearing loss
.
Otol Neurotol
.
2022
;
43
(
9
):
1000
4
.
Google Scholar
Crossref
Search ADS
PubMed
 
6.
Danhauer
JL
,
Johnson
CE
,
Mixon
M
.
Does the evidence support use of the Baha implant system (Baha) in patients with congenital unilateral aural atresia
.
J Am Acad Audiol
.
2010
;
21
(
4
):
274
86
.
Google Scholar
PubMed
 
7.
Dieudonné
B
,
Francart
T
.
Redundant information is sometimes more beneficial than spatial information to understand speech in noise
.
Ear Hear
.
2019 May/Jun
;
40
(
3
):
545
54
.
Google Scholar
Crossref
Search ADS
PubMed
 
8.
Eeg-Olofsson
M
,
Stenfelt
S
,
Granström
G
.
Implications for contralateral bone-conducted transmission as measured by cochlear vibrations
.
Otol Neurotol
.
2011 Feb
;
32
(
2
):
192
8
.
Google Scholar
Crossref
Search ADS
PubMed
 
9.
Graydon
K
,
Rance
G
,
Dowell
R
,
Van Dun
B
.
Consequences of early conductive hearing loss on long-term binaural processing
.
Ear Hear
.
2017
;
38
(
5
):
621
7
.
Google Scholar
Crossref
Search ADS
PubMed
 
10.
Hilly
O
,
Sokolov
M
,
Finkel
RB
,
Zavdy
O
,
Shemesh
R
,
Attias
J
.
Hearing in noise with unilateral versus bilateral bone conduction hearing aids in adults with pseudo-conductive hearing loss
.
Otol Neurotol
.
2020
;
41
(
3
):
379
85
.
Google Scholar
Crossref
Search ADS
PubMed
 
11.
Hirth
D
,
Weiss
R
,
Stöver
T
,
Kramer
S
.
Audiological benefit and subjective satisfaction with the ADHEAR hearing system in children with unilateral conductive hearing loss
.
Eur Arch Otorhinolaryngol
.
2021
;
278
(
8
):
2781
8
.
Google Scholar
Crossref
Search ADS
PubMed
 
12.
Hol
MK
,
Snik
AF
,
Mylanus
EA
,
Cremers
CW
.
Does the bone-anchored hearing aid have a complementary effect on audiological and subjective outcomes in patients with unilateral conductive hearing loss
.
Audiol Neurootol
.
2005
;
10
(
3
):
159
68
.
Google Scholar
Crossref
Search ADS
PubMed
 
13.
Iwasaki
S
,
Hashimoto
Y
,
Nagura
M
,
Takebayashi
S
,
Mizuta
K
,
Mineta
H
.
Comparison of audiological performance bewteen bone-anchored and conventional hearing aids
.
Nihon Jibiinkoka Gakkai Kaiho
.
2005 Nov
;
108
(
11
):
1110
3
.
Google Scholar
Crossref
Search ADS
PubMed
 
14.
Janssen
RM
,
Hong
P
,
Chadha
NK
.
Bilateral bone-anchored hearing aids for bilateral permanent conductive hearing loss: a systematic review
.
Otolaryngol Head Neck Surg
.
2012 Sep
;
147
(
3
):
412
22
.
Google Scholar
Crossref
Search ADS
PubMed
 
15.
Kesser
BW
,
Krook
K
,
Gray
LC
.
Impact of unilateral conductive hearing loss due to aural atresia on academic performance in children
.
Laryngoscope
.
2013 Sep
;
123
(
9
):
2270
5
.
Google Scholar
Crossref
Search ADS
PubMed
 
16.
Kunst
SJ
,
Leijendeckers
JM
,
Mylanus
EA
,
Hol
MK
,
Snik
AF
,
Cremers
CW
.
Bone-anchored hearing aid system application for unilateral congenital conductive hearing impairment: audiometric results
.
Otol Neurotol
.
2008
;
29
(
1
):
2
7
.
Google Scholar
Crossref
Search ADS
PubMed
 
17.
Litovsky
R
,
Parkinson
A
,
Arcaroli
J
,
Sammeth
C
.
Simultaneous bilateral cochlear implantation in adults: a multicenter clinical study
.
Ear Hear
.
2006
;
27
(
6
):
714
31
.
Google Scholar
Crossref
Search ADS
PubMed
 
18.
Maier
H
,
Lenarz
T
,
Agha-Mir-Salim
P
,
Agterberg
MJH
,
Anagiotos
A
,
Arndt
S
, .
Consensus statement on bone conduction devices and active middle ear implants in conductive and mixed hearing loss
.
Otol Neurotol
.
2022 Jun 1
;
43
(
5
):
513
29
.
Google Scholar
 
19.
Puglisi
GE
,
Warzybok
A
,
Hochmuth
S
,
Visentin
C
,
Astolfi
A
,
Prodi
N
, .
An Italian matrix sentence test for the evaluation of speech intelligibility in noise
.
Int J Audiol
.
2015
;
54
(
Suppl 2
):
44
50
.
Google Scholar
PubMed
 
20.
Snapp
H
,
Vogt
K
,
Agterberg
MJH
.
Bilateral bone conduction stimulation provides reliable binaural cues for localization
.
Hear Res
.
2020 Mar 15
;
388
:
107881
.
Google Scholar
Crossref
Search ADS
 
21.
Stenfelt
S
.
Bilateral fitting of BAHAs and BAHA fitted in unilateral deaf persons: acoustical aspects
.
Int J Audiol
.
2005 Mar
;
44
(
3
):
178
89
.
Google Scholar
Crossref
Search ADS
PubMed
 
22.
Stenfelt
S
.
Transcranial attenuation of bone-conducted sound when stimulation is at the mastoid and at the bone conduction hearing aid position
.
Otol Neurotol
.
2012 Feb
;
33
(
2
):
105
14
.
Google Scholar
Crossref
Search ADS
PubMed
 
23.
Stenfelt
S
,
Reinfeldt
S
.
A model of the occlusion effect with bone-conducted stimulation
.
Int J Audiol
.
2007 Oct
;
46
(
10
):
595
608
.
Google Scholar
Crossref
Search ADS
PubMed
 
24.
Stenfelt
S
,
Zeitooni
M
.
Loudness functions with air and bone conduction stimulation in normal-hearing subjects using a categorical loudness scaling procedure
.
Hear Res
.
2013 Jul
;
301
:
85
92
.
Google Scholar
Crossref
Search ADS
PubMed
 
25.
Surendran
S
,
Stenfelt
S
.
The outer ear pathway during hearing by bone conduction
.
Hear Res
.
2022 Aug
;
421
:
108388
.
Google Scholar
Crossref
Search ADS
PubMed
 
26.
Zernotti
ME
,
Alvarado
E
,
Zernotti
M
,
Claveria
N
,
Di Gregorio
MF
.
One-year follow-up in children with conductive hearing loss using ADHEAR
.
Audiol Neurootol
.
2021
;
26
(
6
):
435
44
.
Google Scholar
Crossref
Search ADS
PubMed
 
27.
Zwicker
E
,
Zwicker
UT
.
Dependence of binaural loudness summation on interaural level differences, spectral distribution, and temporal distribution
.
J Acoust Soc Am
.
1991 Feb
;
89
(
2
):
756
64
.
Google Scholar
Crossref
Search ADS
PubMed
 
© 2023 S. Karger AG, Basel
Copyright / Drug Dosage / Disclaimer
Copyright: All rights reserved. No part of this publication may be translated into other languages, reproduced or utilized in any form or by any means, electronic or mechanical, including photocopying, recording, microcopying, or by any information storage and retrieval system, without permission in writing from the publisher.
Drug Dosage: The authors and the publisher have exerted every effort to ensure that drug selection and dosage set forth in this text are in accord with current recommendations and practice at the time of publication. However, in view of ongoing research, changes in government regulations, and the constant flow of information relating to drug therapy and drug reactions, the reader is urged to check the package insert for each drug for any changes in indications and dosage and for added warnings and precautions. This is particularly important when the recommended agent is a new and/or infrequently employed drug.
Disclaimer: The statements, opinions and data contained in this publication are solely those of the individual authors and contributors and not of the publishers and the editor(s). The appearance of advertisements or/and product references in the publication is not a warranty, endorsement, or approval of the products or services advertised or of their effectiveness, quality or safety. The publisher and the editor(s) disclaim responsibility for any injury to persons or property resulting from any ideas, methods, instructions or products referred to in the content or advertisements.
2023
You do not currently have access to this content.