Coding of Electric Pulse Trains Presented through Cochlear Implants in the Auditory Midbrain of Awake Rabbit: Comparison with Anesthetized Preparations
- Author(s)
- Yoojin Chung; Kenneth E. Hancock; Sung-Il Nam; Bertrand Delgutte
- Keimyung Author(s)
- Nam, Sung Il
- Department
- Dept. of Otorhinolaryngology (이비인후과학)
- Journal Title
- journal of Neuroscience
- Issued Date
- 2014
- Volume
- 34
- Issue
- 1
- Keyword
- anesthesia; cochlear implant; inferior colliculus; temporal coding
- Abstract
- Cochlear implant (CI) listeners show limits at high frequencies in tasks involving temporal processing such as rate pitch and interaural
time difference discrimination. Similar limits have been observed in neural responses to electric stimulation in animals with CI; however,
the upper limit of temporal coding of electric pulse train stimuli in the inferior colliculus (IC) of anesthetized animals is lower than the
perceptual limit. We hypothesize that the upper limit of temporal neural coding has been underestimated in previous studies due to the
confound of anesthesia. To test this hypothesis, we developed a chronic, awake rabbit preparation for single-unit studies of IC neurons
with electric stimulation through CI. Stimuli were periodic trains of biphasic pulses with rates varying from 20 to 1280 pulses per second.
We found that IC neurons in awake rabbits showed higher spontaneous activity and greater sustained responses, both excitatory and
suppressive, at high pulse rates. Maximum pulse rates that elicited synchronized responses were approximately two times higher in
awake rabbits than in earlier studies with anesthetized animals. Here, we demonstrate directly that anesthesia is a major factor underlying
these differences by monitoring the responses of single units in one rabbit before and after injection of an ultra-short-acting
barbiturate. In general, the physiological rate limits of IC neurons in the awake rabbit are more consistent with the psychophysical limits
in human CI subjects compared with limits from anesthetized animals.
Key words: anesthesia; cochlear implant; inferior colliculus; temporal coding
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