Journal ArticleDOI
Transient response of the basilar membrane measured in squirrel monkeys using the Mössbauer effect
TLDR
Measurements of the transient response of the basilar membrane were conducted using the Mossbauer effect on 33 squirrel monkeys using an experimental preparation identical to that of Rhode ( 1971), showing consistency with nonlinearity reported using steady‐state measurement methods.Abstract:
Measurements of the transient response of the basilar membrane were conducted using the Mossbauer effect on 33 squirrel monkeys using an experimental preparation identical to that of Rhode (1971). The stimuli were acoustic clicks 150 μsec in duration repeated 100 000–400 000 times. The amplitude of the click was varied and the responses of the malleus and of the basilar membrane at a point in the basal turn were measured. The basilar membrane’s click response is oscillatory, with a period near that of the characteristic frequency. The first few response peaks behave almost linearly with stimulus intensity, while the later peaks exhibit a pronounced nonlinearity. This behavior is shown to be consistent with the nonlinearity reported using steady‐state measurement methods (Rhode, 1971). The transient response observed in some of the preparations was very lightly damped; however, a wide range in the damping of the responses was found in the different animals. A progressive increase in the rate of decay of th...read more
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Journal ArticleDOI
Synchronized responses of primary auditory fibre-populations in Caiman crocodilus (L.) to single tones and clicks.
Jean W.T. Smolders,Rainer Klinke +1 more
TL;DR: The results are consistent with the existence of a mechanical travelling wave reported previously on the basilar membrane of the caiman, but at the same stimulus level the phase characteristic of the present single unit responses is steeper and the wave length estimates from the neural population phase distributions are shorter than those observed directly in the motion of the Basilar membrane.
Journal ArticleDOI
Medial Olivocochlear Efferent Inhibition of Basilar-Membrane Responses to Clicks: Evidence for Two Modes of Cochlear Mechanical Excitation
John J. Guinan,Nigel P. Cooper +1 more
TL;DR: Data support the hypothesis that the MOC-evoked inhibitions of the traveling wave and of the ANIP response are separate phenomena, and indicate that the OHCs can affect at least two separate modes of excitation in the mammalian cochlea.
Journal ArticleDOI
Medial-olivocochlear-efferent inhibition of the first peak of auditory-nerve responses: Evidence for a new motion within the cochlea
TL;DR: The data support the hypothesis that there is a motion that bends inner-hair-cell stereocilia and can be inhibited by MOC efferents, aMotion that is present through most, or all, of the cochlea and for which there is no counterpart in the classic BM traveling wave.
Journal ArticleDOI
Single auditory nerve fiber and action potential latencies in normal and noise-treated chinchillas
TL;DR: In this paper, the authors measured the latency of the auditory nerve action potential (AP) and single auditory nerve fibers using click stimuli and found that the fiber latencies were shorter for the noise-treated group than for normal animals.
Book ChapterDOI
Circuit models of sensory transduction in the cochlea
John Lazzaro,Carver A. Mead +1 more
TL;DR: Sensory transduction uses nonlinear signal processing to reduce real-world input to a neural representation, with a minimal loss of information, in the nervous system.