Journal ArticleDOI
Analysis of compound action potential responses to tone bursts in the human and guinea pig cochlea
Reads0
Chats0
TLDR
In electrocochocholegraphy, compound action potentials (AP) are recorded from the human promontory and the guinea pig round window to derive a response area for a given type of stimulus, e.g., tone bursts.Abstract:
In electrococholegraphy, compound action potentials (AP) are recorded from the human promontory and the guinea pig round window. High‐pass noise masking and subtraction of AP responses at various high‐pass cutoff frequencies give the narrow‐band contributions to the whole nerve AP. Although the narrow‐band contributions recorded from human and guinea pig ears differ essentially, this narrow‐band concept makes it possible to derive a response area for a given type of stimulus, e.g., tone bursts. Within the response area, any combination of stimulus intensity and site on the cochlear partition evokes a detectable narrow‐band response contributing to the whole‐nerve AP. The main part of this contribution shifts basally the higher the stimulus intensity. Latency differences between responses from the various narrow bands are used to calcuate the traveling‐wave velocity for the human cochlea, which ranges from about 20 m/sec at 10 kHz to 1 m/sec at 500 Hz. The amplitude and width of the narrow‐band responses a...read more
Citations
More filters
Journal ArticleDOI
Similarity of Traveling-Wave Delays in the Hearing Organs of Humans and Other Tetrapods
TL;DR: The estimated in vivo basilar-membrane delays in humans are similar to delays in the hearing organs of other tetrapods, including those in which basilar membranes do not sustain traveling waves or that lack basilar membrane vibrations altogether.
Journal ArticleDOI
Auditory steady-state responses to chirp stimuli based on cochlear traveling wave delay.
TL;DR: The results indicate that a chirp is a more efficient stimulus than a click for the recording of early auditory evoked responses in normal-hearing adults using transient sounds at a high rate of stimulation.
Journal ArticleDOI
Auditory physics. Physical principles in hearing theory. III
TL;DR: In this paper, a mathematical model of the cochlear mechanics is presented, based on the results of physical measurements of the mechanics of cochlea (inner ear), and the simplest possible solution, a one-dimensional model, is worked out in considerable detail.
Journal ArticleDOI
Electrocochleography and auditory brainstem electric responses in patients with pontine angle tumors.
TL;DR: Evidence is presented that the increase in I-V delay in the BSERs is caused by differential action of the tumor upon low and high frequency fibers in the auditory nerve and that desynchronization of the firings of the nerve fibers is of more importance than an increase in neural conduction time.
Journal ArticleDOI
Auditory brainstem responses in autism: Brainstem dysfunction or peripheral hearing loss?
TL;DR: The ABR data available at present can be seen as only suggestive, rather than supportive, of brainstem involvement in autism, and additional evidence of auditory abnormalities as well as the implications for the clinician are considered.
Related Papers (5)
Analysis of the click‐evoked brainstem potentials in man using high‐pass noise masking
Manuel Don,Jos J. Eggermont +1 more