Sage Journals: Discover world-class research

Abstract

Objectives

To examine the effects of an auricular prosthesis on sound levels at the entrance of the ear canal by measuring the auricular prosthesis transfer function (APTF) and to determine the effect of the prosthesis on speech recognition in noisy hearing conditions.

Methods

Eight prostheses were used to measure the APTF. A microphone at the entrance of the ear canal measured sound pressure levels with the prosthesis present or absent while the head was rotated 360° at 30° increments. The Hearing in Noise Test was modified by the APTF to simulate the absence of an auricular prosthesis. Speech recognition was measured by testing 11 subjects with the unmodified Hearing in Noise Test and the modified Hearing in Noise Test.

Results

The APTF changed with the head's position relative to the speaker. The mean (SD) maximal gain provided by an auricular prosthesis was 8.1 (2.7) dB at 4.6 (1.0) kHz and 9.7 (1.7) dB at 11.5 (0.9) kHz at 0° rotation. During speech testing, the auricular prosthesis improved the mean (SD) signal to noise ratio by 1.7 (1.7) dB at 0° (P < .001), 0.9 (2.2) dB at 90° (P =.04), and 0.5 (2.3) dB at 180° (P =.52).

Conclusions

The acoustic gain provided by an auricular prosthesis increases speech recognition in noisy environments. Auricular prostheses not only restore aesthetics but also improve hearing.

Get full access to this article

View all access options for this article.

References

Zim

. Microtia reconstruction: an update.. Curr Opin Otolaryngol Head Neck Surg. 2003; 11(4):275–281 14515077

Westin

, Tjellström

, Hammerlid

, Bergström

, Rangert

. Long-term study of quality and safety of osseointegration for the retention of auricular prostheses.. Otolaryngol Head Neck Surg. 1999; 121(1):133–143 10388896

Rotenberg

, James

, Fisher

, Anderson

, Papsin

. Establishment of a bone-anchored auricular prosthesis (BAAP) program.. Int J Pediatr Otorhinolaryngol. 2002; 66(3):273–279 12443817

Granström

, Bergström

, Odersjö

, Tjellström

. Osseointegrated implants in children: experience from our first 100 patients.. Otolaryngol Head Neck Surg. 2001; 125(1):85–92 11458220

Zeitoun

, De

, Thompson

, Proops

. Osseointegrated implants in the management of childhood ear abnormalities: with particular emphasis on complications.. J Laryngol Otol. 2002; 116(2):87–91 11827578

Reisberg

, Lipner

. Audiometric evaluation of prosthetic ears: a preliminary report.. J Prosthet Dent. 1993; 69(2):196–199 8429513

Baer

, Moore

. Effects of spectral smearing on the intelligibility of sentences in noise.. J Acoust Soc Am. 1993; 94:1229–1241

Baer

, Moore

. Effects of spectral smearing on the intelligibility of sentences in the presence of interfering speech.. J Acoust Soc Am. 1994; 95(4):2277–2280 8201124

Boothroyd

, Mulhearn

, Gong

, Ostroff

. Effects of spectral smearing on phoneme and word recognition.. J Acoust Soc Am. 1996; 100(3):1807–1818 8817914

10.

Nejime

, Moore

. Simulation of the effect of threshold elevation and loudness recruitment combined with reduced frequency selectivity on the intelligibility of speech in noise.. J Acoust Soc Am. 1997; 102(1):603–615 9228821

11.

Breeuwer

, Plomp

. Speechreading supplemented with auditorily presented speech parameters.. J Acoust Soc Am. 1986; 79(2):481–499 3950202

12.

Breeuwer

, Plomp

. Speechreading supplemented with formant-frequency information from voiced speech.. J Acoust Soc Am. 1985; 77(1):314–317 3973225

13.

Breeuwer

, Plomp

. Speechreading supplemented with frequency-selective sound-pressure information.. J Acoust Soc Am. 1984; 76(3):686–691 6491042

14.

Lippmann

. Accurate consonant perception without midfrequency speech energy.. IEEE Trans Speech Audio Process. 1996; 4:66–69

15.

Warren

, Riener

, Bashford

Jr , Brubaker

. Spectral redundancy: intelligibility of sentences heard through narrow spectral slits.. Percept Psychophys. 1995; 57(2):175–182 7885815

16.

Reinsch

. Smoothing by spline functions.. Numerische Mathematic. 1967; 10:177–183

17.

Litovsky

, Delgutte

. Neural correlates of the precedence effect in the inferior colliculus: effect of localization cues.. J Neurophysiol. 2002; 87(2):976–994 11826062

18.

Delgutte

, Joris

, Litovsky

, Yin

. Receptive fields and binaural interactions for virtual-space stimuli in the cat inferior colliculus.. J Neurophysiol. 1999; 81(6):2833–2851 10368401

19.

Teranishi

, Shaw

. External-ear acoustic models with simple geometry.. J Acoust Soc Am. 1968; 44(1):257–263 5659840

20.

Shaw

. Transformation of sound pressure level from the free field to the eardrum in the horizontal plane.. J Acoust Soc Am. 1974; 56(6):1848–1861 4443484

21.

Middlebrooks

, Dykes

, Merzenich

. Binaural response-specific bands in primary auditory cortex (AI) of the cat: topographical organization orthogonal to isofrequency contours.. Brain Res. 1980; 181(1):31–48 7350963

22.

von Békésy

. Experiments in Hearing.. New York, NY: McGraw-Hill Book Co; 1960

23.

Wiener

, Ross

. The pressure distribution in the auditory canal in a progressive sound field.. J Acoust Soc Am. 1946; 18(2):401–408

24.

Middlebrooks

, Makous

, Green

. Directional sensitivity of sound-pressure levels in the human ear canal.. J Acoust Soc Am. 1989; 86(1):89–108 2754111

25.

Mehrgardt

, Mellert

. Transformation characteristics of the external human ear.. J Acoust Soc Am. 1977; 61(6):1567–1576 893803

26.

Nilsson

, Soli

, Sullivan

. Development of the Hearing in Noise Test for the measurement of speech reception thresholds in quiet and in noise.. J Acoust Soc Am. 1994; 95(2):1085–1099 8132902

27.

Plomp

, Mimpen

. Improving the reliability of testing the speech reception threshold for sentences.. Audiology. 1979; 18(1):43–52 760724

28.

Laurence

, Moore

, Glasberg

. A comparison of behind-the-ear high-fidelity linear hearing aids and two-channel compression aids, in the laboratory and in everyday life.. Br J Audiol. 1983; 17(1):31–48 6860821

29.

Moore

, Lynch

, Stone

. Effects of the fitting parameters of a two-channel compression system on the intelligibility of speech in quiet and in noise.. Br J Audiol. 1992; 26(6):369–379 1292821

The Importance of Auricular Prostheses for Speech Recognition

Abstract

Objectives

Methods

Results

Conclusions

Get full access to this article

References