Auditory filter shapes in normal-hearing, noise-masked normal, and elderly listeners.

To dissociate the effects of age and hearing impairment on changes in frequency selectivity, auditory filter shapes were measured at 2 kHz in four groups of subjects: (1) normal-hearing young subjects; (2) normal-hearing elderly subjects; (3) elderly hearing-impaired listeners; and (4) young normal-hearing listeners with simulated hearing losses. Filter shapes were derived using a modified version of the notched-noise procedure [Glasberg and Moore, Hear, Res. 47, 103-138 (1990)]. Equivalent rectangular bandwidths (ERBs) of auditory filters were not significantly different in young and elderly subjects with normal 2-kHz hearing. Furthermore, filter widths for young subjects with 20- and 40-dB simulated hearing losses overlapped with those obtained from elderly subjects with corresponding degrees of actual hearing loss. One measure that did show significant differences between actual and simulated hearing losses was the degree of filter asymmetry; auditory filters in hearing-impaired listeners were more asymmetrical than those obtained from noise-masked normal-hearing subjects. The dynamic range of auditory filters, however, was comparable for hearing-impaired and noise-masked listeners. Lastly, post-filter detection efficiency was also similar for young and elderly subjects with equivalent hearing levels. These findings suggest that the reduced frequency selectivity often reported for older listeners can be attributed, primarily, to hearing loss rather than increased age. Implications of the results for speech perception in the elderly and models of hearing impairment are discussed.

[1]  J. F. Corso,et al.  Sensory processes and age effects in normal adults. , 1971, Journal of gerontology.

[2]  B C Moore,et al.  Auditory filter shapes at low center frequencies in young and elderly hearing-impaired subjects. , 1992, The Journal of the Acoustical Society of America.

[3]  D D Dirks,et al.  Auditory filter characteristics and consonant recognition for hearing-impaired listeners. , 1989, The Journal of the Acoustical Society of America.

[4]  S Buus,et al.  Frequency selectivity in normally-hearing and hearing-impaired observers. , 1980, Journal of speech and hearing research.

[5]  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.

[6]  L E Humes,et al.  Modeling sensorineural hearing loss. I. Model and retrospective evaluation. , 1988, The Journal of the Acoustical Society of America.

[7]  R. Patterson Auditory filter shapes derived with noise stimuli. , 1976, The Journal of the Acoustical Society of America.

[8]  A. M. Mimpen,et al.  Speech-reception threshold for sentences as a function of age and noise level. , 1979, The Journal of the Acoustical Society of America.

[9]  勇 鰕原,et al.  みみなりの検査法-Psychoacoustical Tuning Curvesについて- , 1980 .

[10]  B C Moore,et al.  Distribution of auditory-filter bandwidths at 2 kHz in young normal listeners. , 1987, The Journal of the Acoustical Society of America.

[11]  B. Moore,et al.  Auditory filter shapes at low center frequencies. , 1990, The Journal of the Acoustical Society of America.

[12]  L. Humes,et al.  Models of the additivity of masking. , 1989, The Journal of the Acoustical Society of America.

[13]  M F Dorman,et al.  Susceptibility to intraspeech spread of masking in listeners with sensorineural hearing loss. , 1983, The Journal of the Acoustical Society of America.

[14]  B. Moore,et al.  Auditory Filters and Aging: Filters When Audiometric Thresholds are Normal , 1992 .

[15]  B C Moore,et al.  Auditory filter asymmetry in the hearing impaired. , 1984, The Journal of the Acoustical Society of America.

[16]  R S Tyler,et al.  Frequency resolution and hearing loss. , 1982, British journal of audiology.

[17]  E. Zwicker,et al.  Psychoacoustical tuning curves in audiology. , 1978, Audiology : official organ of the International Society of Audiology.

[18]  B. Moore,et al.  Suggested formulae for calculating auditory-filter bandwidths and excitation patterns. , 1983, The Journal of the Acoustical Society of America.

[19]  Brian R Glasberg,et al.  Derivation of auditory filter shapes from notched-noise data , 1990, Hearing Research.

[20]  R. Hinchcliffe The anatomical locus of presbycusis. , 1962, The Journal of speech and hearing disorders.

[21]  J. McGee,et al.  Frequency selectivity in the auditory periphery: similarities between damaged and developing ears. , 1990, American journal of otolaryngology.

[22]  Masking, temporal integration and speech intelligibility in subjects with noise‐induced hearing loss , 1979 .

[23]  B. Moore,et al.  Psychoacoustic abilities of subjects with unilateral and bilateral cochlear hearing impairments and their relationship to the ability to understand speech. , 1989, Scandinavian audiology. Supplementum.

[24]  S Gatehouse,et al.  Frequency resolution as a function of hearing threshold level and age. , 1991, The Journal of the Acoustical Society of America.

[25]  J. Dubno,et al.  Effects of age and mild hearing loss on speech recognition in noise. , 1984, The Journal of the Acoustical Society of America.

[26]  B C Moore,et al.  Dynamic range and asymmetry of the auditory filter. , 1984, The Journal of the Acoustical Society of America.

[27]  R. Patterson,et al.  The deterioration of hearing with age: frequency selectivity, the critical ratio, the audiogram, and speech threshold. , 1982, The Journal of the Acoustical Society of America.

[28]  M E Lutman,et al.  Speech identification under simulated hearing-aid frequency response characteristics in relation to sensitivity, frequency resolution, and temporal resolution. , 1986, The Journal of the Acoustical Society of America.

[29]  B C Moore,et al.  Auditory filter shapes at 8 and 10 kHz. , 1990, The Journal of the Acoustical Society of America.

[30]  L L Elliott,et al.  Development of a test of speech intelligibility in noise using sentence materials with controlled word predictability. , 1977, The Journal of the Acoustical Society of America.