the basic physiology of the auditory nerve - uconn health · the basic physiology of the auditory...
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The basic physiology of the auditory nerve
Alan R. PalmerMRC Institute of Hearing Research, University Park,
Nottingham NG7 2RD. www.ihr.mrc.ac.uk
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This lecture will describe the following topics:
• Responses to sound frequency• Vulnerability of neural tuning to cochlear insults• Responses to sound level: different fibre types• Timing of neural discharges: adaptation, phase-locking• Responses to complex sound: clicks, noise, 2 tones,
amplitude modulation and speech sounds
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AbstractThe auditory nerve is mainly made up of nerve fibres that innervate the inner hair cells in thecochlea. Its responses are relatively homogeneous. Each nerve fibre is sharply tuned for frequency (matching the basilar membrane vibration pattern). This tuning is physiologically vulnerable: cochlear insults such as noise exposure, ototoxic drugs and hypoxia lead to theelevated threshold and broader tuning that is characteristic of sensorineural hearing loss. Auditory nerve fibres have spontaneous rates that vary from 0 to more than 120 spikes per second. Fibres with the highest rates of spontaneous activity have the lowest thresholds. Oncethe level of a sound exceeds the fibre’s threshold the discharge rate of the fibre rises above itsspontaneous rate. Eventually, when the sound is made sufficiently high in level the fibre cannotfire any faster and reaches saturated discharge rate. For high spontaneous rate fibres the shape the function relating firing rate to sound levels is sigmoidal whereas for medium and lowspontaneous rate fibres it may deviate from this and even be straight over wide ranges of level. The range over which a fibre changes its discharge rate to signal sound level changes is called the dynamic range. The dynamic range is narrow for high spontaneous rate fibres and wider formedium and low spontaneous rate fibres. When a steady stimulus is turned on the discharge
Is highest and then adapts to a steady or adapted rate over tens of milliseconds. On a finer timescale the exact timing of the spikes in low frequency fibres is locked to the stimulus waveform. Such phase-locking is essential for localisation of sound using interaural time differences. The presence of a second tone may suppress the activity to a simultaneously present tone due to interactions between the vibrations in the cochlear: this aids separation of strong components of complex sounds. Speech signals are very complex with many simultaneously present oftenharmonically related components. The spectrum of such sounds is represented across the population of auditory nerve fibres possibly in terms of the distribution of mean discharge rate, but also in terms of the temporal patterns of activity.
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Inner Hair Cell
Outer Hair Cell
Afferent Synapse
Hair cell systems in the cochlea
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Spontaneous Activity
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Liberman (1978)
Kiang et al (1965)
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Sound Frequency: tuning in the auditory nerve
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Low-frequency tone
High-frequency tone
Auditory nerve fibresAction potential
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CF
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Action potential
Each auditory-nervefibre responds only to
a narrow range of frequencies
Tuning curve
Evans (1975)
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Palmer and Evans (1975)
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Audiogram
There are many overlapping single-fibre tuning curves in the auditory nerve
Palmer and Evans (1975)
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Tuning for soundfrequency is ubiquitous
Guinea Pig
Cat
Squirrel Monkey
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Evans (1975)
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Auditory-nerve filters (tuning curves) determine the perceptual frequency resolution
Evans et al., (1989)
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Vulnerability of the Tuning
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Evans (1975)
Reduced oxygen:High thresholdBroad Tuning
Thresholds and tuningrecover when oxygenreturns
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Outer Hair Cells
Inner Hair Cells
Harrison and Evans (1975)
Ototoxic drugs also cause threshold loss and broad tuning
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Liberman and Dodds
As does noiseexposure
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Wightman
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Sound Level
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Galambos and Davis (1943)
Saturated rate
Spontaneous rate
ThresholdDynamic range
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At each frequency, auditory nerve fibres
differ in their spontaneous rate,
input/output functionand dynamic range -
these covary.
High SR
Low threshold
High thresholdLow SR
Winter and Palmer
Guinea pig
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Sachs and Abbas (1974)
Cat
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Palmer (1975)
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Whitfield (1965)
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Because of theasymmetrical
“V” shape of tuningcurves, activity spreads
to higherfrequencies
Kim and Molnar (1979)Palmer and Evans
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Iso-level response functions
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0
5
10
15
20
Spi
kes/
Stim
ulus
0
5
10
15
20
Spi
kes/
Stim
ulus
Frequency kHz0.29 4.71.176
0
10
20
70
30
40
50
60
Atte
nuat
ion
(dB
)
Palmer unpublished
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Timing
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When a novel stimulus occurs within a frequency channelthe discharge rate is immediately increased and then falls
(adapts) over a few tens of milliseconds
Kiang et al. (1965)
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Delgutte (1984)
Adaptation within a singlefrequency channel can reducethe activity to following signals
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/ma/ and /ba/ have the same vowel /a/,but preceded in /ma/ by low-frequency energy
Delgutte (1984)
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When adapting energy is present in a frequency channel the high
spike rate at the onset of a signalis reduced or absent
Delgutte (1984)
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This image cannot currently be displayed.
The discharges of cochlear nerve fibres to low-frequency sounds are not random;
they occur at particular times (phase locking).
Evans (1975)
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Rose et al (1971)
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Palmer and Russell (1986)
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Palmer and Russell (1986)
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Phase-locking in the auditory nerve is species dependent,but in mammals occurs only up to about 5 kHz
Palmer and Russell (1986)
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Palmer and Russell (1986)
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Responses to broadband stimuli: clicks and noise
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Complex Stimuli
1. Two tones: suppression
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Arthur et al (1971)
When two or more frequency componentsare simultaneously present, interactions on
the basilar membrane can result in suppression of the activity.
This appears tobe very important for the population
response to high-level speech sounds.
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Complex Stimuli
2. Three tones: amplitude modulation
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Auditory nerve fibres follow the modulation of signals that fallwithin their response areas up to modulation frequencies
determined by their bandwidth.
Palmer (1983)
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Palmer (1983)
Transfer function of a single auditory nerve fibre
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Palmer and Evans
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Complex Stimuli
3. Speech: vowel sounds
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Generation of vowel sounds
Moore
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At low sound levels steady-state vowels are well represented in the mean discharge rate.
Sachs and Young, (1979)
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At first sight, the fine temporal pattern of the
discharge seems to retain information about the
formants of vowels better than just the mean discharge
rate.
Sachs, Young and Colleagues
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Theoretical computations, based on optimally weighting the different spontaneous rate
populations, reveal that mean rate alone may contain
sufficient information even at high sound levels.
Delgutte, (1996)
**
*
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Descending pathways to the cochlea
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Warr (1978), Warr and Guinan (1979)
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Spoendlin (1971)
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Wiederhold and Kiang (1971)
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Function of the descending or centrifugal innervation
• Protection from acoustic trauma• Involvement in selective attention• Detection of complex signal in noise• Control of the mechanical state of the cochlea