Robin P. Michelson scite author profile

A series of psychoacoustic experiments was conducted in subjects implanted with a permanent intracochlear bipolar electrode. These experiments were designed to reveal the nature of the sensation evoked by direct sinusoidal electrical stimulation of the acoustic nerve. A series of single unit experiments in the inferior colliculus of cats was then conducted, using intracochlear stimulus electrodes identical to those implanted in human subjects in all respects except size, and using identical stimuli. These physiological experiments were designed to reveal how sounds evoked by intracochlear electrical stimulation in humans are generated and encoded in the auditory nervous system. Among the results were the following: 1) The sensation arises from direct electrical stimulation of the acoustic nerve. It is not “electrophonic” hearing arising from electro-mechanical excitation of hair cells. 2) While sounds are heard with electrical stimulation at frequencies from below 25 to above 10,000 Hz, the useful range of discriminative hearing is limited to frequencies below 400–600 Hz. 3) There is no “place” coding of electrical stimuli of different frequency. Tonal sensations generated by electrical stimulation must be encoded by the time order of discharge of auditory neurons. 4) The periods of sinusoidal electrical stimuli are encoded in discharges of inferior colliculus neurons at frequencies up to 400–600 Hz. 5) Both psychoacoustic and physiological evidence indicates that the low tone sensations evoked by electrical stimulation are akin to the sensations of “periodicity pitch” generated in the normal cochlea. 6) Most cochlear hair cells are lost with intracochlear implantation with this electrode. Most ganglion cells survive implantation. Implications of these experiments for further development of an acoustic prosthesis are discussed.

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The Results of Electrical Stimulation of the Cochlea in Human Sensory Deafness

Michelson¹

1971

Ann Otol Rhinol Laryngol

112

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Multichannel cochlear implant. Preliminary results in man

Michelson¹,

Schindler²

1981

The Laryngoscope

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Cochlear implantations of multichannel electrode arrays have been recently undertaken at the University of California, San Francisco in several totally deaf investigational subjects. One patient was extensively tested with a psychoacoustical battery and is the subject of this communication. Speech testing with CID sentences and open sets of spondee words revealed that this totally deaf subject could achieve approximately 40 to 50% discrimination level with his implant device alone in the absence of visual cues. This represents the first time that speech discrimination has been definitely shown in a cochlear implant subject, and this result has important implications for the future of cochlear implantations.

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