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Literature DB >> 4019331

A comparison of brainstem, whole-nerve AP and single-fiber tuning curves in the gerbil: normative data.

Abstract

Tuning curves were obtained from brainstem responses (BSRs) and whole-nerve action potential (AP) responses of gerbils using a forward masking procedure. These are compared with single-fiber tuning curves of the gerbil. The broadness of the tips, tip-to-tail ratios and the slopes of the high frequency sides of the BSR tuning curves are similar to those of the AP curves for probe frequencies ranging from 1 to 8 kHz. Also, the BSR and AP curves share a number of characteristics with single-fiber tuning curves. These results suggest that, like the AP, components of the BSR can be used to measure frequency selectivity in the periphery of an intact auditory system.

Entities: Disease

Mesh：

Year: 1985 PMID： 4019331 DOI： 10.1016/0378-5955(85)90070-x

Source DB: PubMed Journal: Hear Res ISSN： 0378-5955 Impact factor: 3.208

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Cited

6 in total

1. Properties of derived cochlear action potentials in forward tonal masking in guinea pigs.

Authors: Y A Al'tman; N I Nikitin
Journal: Neurosci Behav Physiol Date: 2000 Sep-Oct

2. Spatial extent of cochlear infrared neural stimulation determined by tone-on-light masking.

Authors: Agnella Izzo Matic; Joseph T Walsh; Claus-Peter Richter
Journal: J Biomed Opt Date: 2011-11 Impact factor: 3.170

3. Effects of low-frequency biasing on otoacoustic and neural measures suggest that stimulus-frequency otoacoustic emissions originate near the peak region of the traveling wave.

Authors: Jeffery T Lichtenhan
Journal: J Assoc Res Otolaryngol Date: 2011-10-15

A comparison of brainstem, whole-nerve AP and single-fiber tuning curves in the gerbil: normative data.

1. Properties of derived cochlear action potentials in forward tonal masking in guinea pigs.

2. Spatial extent of cochlear infrared neural stimulation determined by tone-on-light masking.

3. Effects of low-frequency biasing on otoacoustic and neural measures suggest that stimulus-frequency otoacoustic emissions originate near the peak region of the traveling wave.

4. Unexceptional sharpness of frequency tuning in the human cochlea.

5. Medial olivocochlear efferent reflex inhibition of human cochlear nerve responses.

6. Sustained Perceptual Deficits from Transient Sensory Deprivation.