Sound quality and speech reception for prescribed hearing aid frequency responses.

Four different prescriptions of hearing aid insertion gain versus frequency were validated with a group of 26 moderately hearing-impaired, elderly hearing aid users. Three prescriptions were based on calculating the loudness and articulation index (AI) for aided speech, and ranged from a frequency response with moderate high-frequency emphasis, restoring normal loudness for speech peaks, to a response with the greatest high-frequency emphasis, maximizing the AI. The fourth prescription was a well-established formula of the half-gain type. The frequency responses were evaluated by paired comparison ratings of the pleasantness and intelligibility of speech in noise, and by speech identification tests in noise. The subjects rated the flattest response as significantly more pleasant than the other responses, and significantly more intelligible than the prescription with maximal high-frequency emphasis. There were no detectable differences in signal/noise ratios required for 50% speech identification. These results indicate that a prescription that restores normal loudness for speech peaks in each critical band is probably more easily accepted than either a procedure which is intended to make all speech bands equally loud, or a prescription which maximizes the AI.

[1]  R. Lippmann,et al.  Study of multichannel amplitude compression and linear amplification for persons with sensorineural hearing loss. , 1981, The Journal of the Acoustical Society of America.

[2]  B C Moore,et al.  Auditory filter shapes in subjects with unilateral and bilateral cochlear impairments. , 1986, The Journal of the Acoustical Society of America.

[3]  A Leijon,et al.  Preferred hearing aid gain in everyday use after prescriptive fitting. , 1990, Ear and hearing.

[4]  D Byrne,et al.  Effects of frequency response characteristics on speech discrimination and perceived intelligibility and pleasantness of speech for hearing-impaired listeners. , 1986, The Journal of the Acoustical Society of America.

[5]  C M Rankovic,et al.  An application of the articulation index to hearing aid fitting. , 1991, Journal of speech and hearing research.

[6]  D Byrne,et al.  Evaluation of the National Acoustic Laboratories' new hearing aid selection procedure. , 1988, Journal of speech and hearing research.

[7]  M C Killion,et al.  Revised estimate of minimum audible pressure: where is the "missing 6 dB"? , 1978, The Journal of the Acoustical Society of America.

[8]  H. Dillon,et al.  The National Acoustic Laboratories' (NAL) New Procedure for Selecting the Gain and Frequency Response of a Hearing Aid , 1986, Ear and hearing.

[9]  A Gabrielsson,et al.  Perceived sound quality of hearing aids. , 1979, Scandinavian audiology.

[10]  C V Pavlovic,et al.  Derivation of primary parameters and procedures for use in speech intelligibility predictions. , 1987, The Journal of the Acoustical Society of America.

[11]  J. M. Pickett,et al.  Some Masking Effects Produced by Low-Frequency Vowel Formants in Persons with Sensorineural Hearing Loss , 1975 .

[12]  M W Skinner,et al.  Speech intelligibility in noise-induced hearing loss: effects of high-frequency compensation. , 1980, The Journal of the Acoustical Society of America.

[13]  D. M. Green,et al.  Signal detection theory and psychophysics , 1966 .

[14]  J L Punch,et al.  Relative effects of low-frequency amplification on syllable recognition and speech quality. , 1986, Ear and hearing.

[15]  B Hagerman,et al.  Sentences for testing speech intelligibility in noise. , 1982, Scandinavian audiology.

[16]  D Byrne,et al.  Effects of bandwidth and stimulus type on most comfortable loudness levels of hearing-impaired listeners. , 1986, The Journal of the Acoustical Society of America.

[17]  E. Zwicker,et al.  Analytical expressions for critical‐band rate and critical bandwidth as a function of frequency , 1980 .

[18]  R M Cox,et al.  A Structured Approach to Hearing Aid Selection , 1985, Ear and hearing.

[19]  C M Reed,et al.  Hearing aids--a review of past research on linear amplification, amplitude compression, and frequency lowering. , 1979, ASHA monographs.

[20]  M J Osberger,et al.  Discrimination of formant frequency transitions in synthetic vowels. , 1973, Journal of speech and hearing research.

[21]  C V Pavlovic,et al.  Use of the articulation index for assessing residual auditory function in listeners with sensorineural hearing impairment. , 1984, The Journal of the Acoustical Society of America.

[22]  C V Pavlovic,et al.  An articulation index based procedure for predicting the speech recognition performance of hearing-impaired individuals. , 1986, The Journal of the Acoustical Society of America.

[23]  K. Berger Prescription of hearing aids: a rationale. , 1976, Journal of the American Audiology Society.

[24]  K. D. Kryter Methods for the Calculation and Use of the Articulation Index , 1962 .