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{{Biopsy}}
 
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{{Infobox Nerve |
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Name = Vestibulocochlear nerve |
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The '''acoustic nerve''' (also known as the '''auditory nerve''' or '''cochlear nerve''' is part of the [[vestibulocochlear nerve]], (or 8th [[cranial nerve]]) that is found in higher vertebrates. It is a sensory nerve, i.e., one that conducts information about the environment (in this case, acoustic energy that impinges on the external ear) to the [[brain]]. The other portion of the 8th nerve is the ''[[vestibular nerve]]''. The cochlear nerve arises from within the [[cochlea]] and extends to the [[brainstem]], where its fibers make contact with the [[cochlear nucleus]], the next stage of neural processing in the auditory system. and is responsible for transmitting sound information from the [[inner ear]] to the [[brain]].
Latin = |
 
GraySubject = 203 |
 
Image = Gray789.png |
 
Caption = The course and connections of the [[facial nerve]] in the [[temporal bone]] |
 
Innervates = |
 
BranchFrom = |
 
BranchTo = [[cochlear nerve]], [[vestibular nerve]] |
 
MeshName = Vestibulocochlear+Nerve |
 
MeshNumber = A08.800.800.120.910 |
 
}}
 
The '''acoustic nerve''' (also known as the '''auditory''' or '''vestibulocochlear nerve''') is the eighth of twelve [[cranial nerves]], and is responsible for transmitting sound and equilibrium (balance) information from the [[inner ear]] to the [[brain]].
 
   
 
==Structure==
 
==Structure==
 
{{Cranial nerves short}}
 
{{Cranial nerves short}}
This [[nerve]], along which the sensory cells (the [[hair cells]]) of the [[inner ear]] transmit information to the [[brain]]. It consists of the [[cochlear nerve]], carrying information about [[hearing (sense)|hearing]], and the [[vestibular nerve]], carrying information about [[balance]].
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==Anatomy and connections==
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In terms of their anatomy, auditory [[nerve fiber]]s are [[Bipolar cell|bipolar]], with the most distal portion being called the [[peripheral process]] and the central projection being called the [[axon]]; these two projection are also known as the "peripheral axon" and the "central axon". The peripheral process is sometimes referred to as a [[dendrite]], although that term is somewhat inaccurate. Unlike the typical dendrite, the peripheral process generates and conducts [[action potential]]s, which then "jump" across the cell body (or ''somata'') and continue to propagate along the central axon. In this respect, auditory nerve fibers are somewhat unique bipolar cells in that action potentials pass through the soma. Both the peripheral process and the the axon are [[myelin]]ated.
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In humans, the number of nerve fibers within the cochlear nerve averages around 30,000.<ref name=Spoendlin_1989>{{cite journal |author=Spoendlin H, Schrott A |title=Analysis of the human auditory nerve |journal=Hear Res |volume=43 |issue=1 |pages=25-38 |year=1989 |pmid=2613564}}</ref> The number of fibers varies significantly across species&mdash;for example, the domestic cat has some 50,000 fibers. Auditory nerve fibres provide synaptic connections between the hair cells of the [[cochlea]] and the [[cochlear nucleus]] within the brainstem. The cell bodies of the cochlear nerve lie within the central aspect of the cochlea and are collectively known as the spiral ganglion. This name reflects the fact that the cell bodies, considered as a unit,has a spiral (or perhaps more accurately, a helical) shape, reflecting the shape of the cochlea. The terms "cochlear nerve fiber" and "spiral ganglion cell" are used, to some degree, interchangeably, although the former may be used to more specifically refer to the central axons of the cochlear nerve. These central axons exit the cochlea at its base, where it forms a nerve trunk. In humans, this aspect of the nerve is roughly one inch in length. It projects centrally to the brainstem, where its fibers synapse with the cell bodies of the [[cochlear nucleus]]. A good anatomical description of human auditory nerve fibers is provided by Spoendlin and Schrott (1985). Important earlier work was done by Schuknecht.
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It was once believed that most of the cochlear nerve fibres were directed to the outer [[hair cell]]s, but it is now understood that at least 90% of the cochlear ganglion cells terminate on inner hair cells, the rest terminating on the outer hair cells.
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The transmission between the inner hair cells and the neurons is chemical, using [[glutamate]] as a neurotransmitter.
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It emerges from the [[medulla oblongata]] and enters the inner [[skull]] via the [[internal acoustic meatus]] (or [[internal auditory meatus]]) in the [[temporal bone]], along with the [[facial nerve]].
 
It emerges from the [[medulla oblongata]] and enters the inner [[skull]] via the [[internal acoustic meatus]] (or [[internal auditory meatus]]) in the [[temporal bone]], along with the [[facial nerve]].
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==Types of neurons==
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The cochlear neurons can be divided into two groups: Type I and Type II.
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* Type I neurons make up 90-95% of the neurons and innervate the inner hair cells. They have a relatively large diameter, and are bipolar and myelinated. Each type I axon innervates only a single hair cell, but each hair cell directs its output to an average of 10 nerve fibres
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* Type II cells, which have a relatively small diameter, connect with the outer hair cells, are monopolar and are not myelinated.
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==Cochlear nuclear complex==
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The axons from each cochlear nerve terminate in the cochlear nuclear complex which are ipsilaterally located in the medulla of the brainstem. The cochlear nucleus is the first 'relay station' of the auditory nervous system and receives mainly ipsilateral afferent input.
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The three major components of the cochlear nuclear complex are: (see figure below)
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* the dorsal cochlear nucleus (DCN)
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* the anteroventral cochlear nucleus (AVCN)
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* the posteroventral cochlear nucleus (PVCN)
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Each of the three cochlear nuclei are tonotopically organised. The axons from the lower frequency area of the cochlea innervate the ventral portion of the dorsal cochlear nucleus and the ventrolateral portions of the anteroventral cochlear nucleus, while the higher frequency axons project into the dorsal portion of the anteroventral cochlear nucleus and the uppermost dorsal portions of the dorsal cochlear nucleus. The mid frequency projections end up in between the two extremes, in this way the frequency spectrum is preserved.
   
 
==Functions==
 
==Functions==
The eighth cranial nerve has two prime roles. It is needed to convey information of vestibular sensation - that is, the position and movement of the [[head]]. Secondly, it is used for hearing.
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The [[cochlear nerve]], carries information about [[hearing (sense)|hearing]]
   
 
==Innervations==
 
==Innervations==
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==Physiology==
 
==Physiology==
 
How hearing information is coded on the nerve has long been a matter of scientific debate between two competing theories, a [[place theory (hearing)|place theory]] and a [[rate theory (hearing)|rate theory]].
 
How hearing information is coded on the nerve has long been a matter of scientific debate between two competing theories, a [[place theory (hearing)|place theory]] and a [[rate theory (hearing)|rate theory]].
 
==Name==
 
Some older texts call the nerve the ''acoustic'' or ''auditory nerve'' [http://www.bartleby.com/107/203.html], but these terms have fallen out of widespread use because they fail to recognize the nerve's role in the vestibular system. ''Vestibulocochlear nerve'' is therefore preferred by most.
 
   
   

Latest revision as of 19:21, October 12, 2012

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The acoustic nerve (also known as the auditory nerve or cochlear nerve is part of the vestibulocochlear nerve, (or 8th cranial nerve) that is found in higher vertebrates. It is a sensory nerve, i.e., one that conducts information about the environment (in this case, acoustic energy that impinges on the external ear) to the brain. The other portion of the 8th nerve is the vestibular nerve. The cochlear nerve arises from within the cochlea and extends to the brainstem, where its fibers make contact with the cochlear nucleus, the next stage of neural processing in the auditory system. and is responsible for transmitting sound information from the inner ear to the brain.

StructureEdit

Cranial Nerves
CN 0 - Cranial nerve zero
CN I - Olfactory
CN II - Optic
CN III - Oculomotor
CN IV - Trochlear
CN V - Trigeminal
CN VI - Abducens
CN VII - Facial
CN VIII - Vestibulocochlear
CN IX - Glossopharyngeal
CN X - Vagus
CN XI - Accessory
CN XII - Hypoglossal


Anatomy and connectionsEdit

In terms of their anatomy, auditory nerve fibers are bipolar, with the most distal portion being called the peripheral process and the central projection being called the axon; these two projection are also known as the "peripheral axon" and the "central axon". The peripheral process is sometimes referred to as a dendrite, although that term is somewhat inaccurate. Unlike the typical dendrite, the peripheral process generates and conducts action potentials, which then "jump" across the cell body (or somata) and continue to propagate along the central axon. In this respect, auditory nerve fibers are somewhat unique bipolar cells in that action potentials pass through the soma. Both the peripheral process and the the axon are myelinated.

In humans, the number of nerve fibers within the cochlear nerve averages around 30,000.[1] The number of fibers varies significantly across species—for example, the domestic cat has some 50,000 fibers. Auditory nerve fibres provide synaptic connections between the hair cells of the cochlea and the cochlear nucleus within the brainstem. The cell bodies of the cochlear nerve lie within the central aspect of the cochlea and are collectively known as the spiral ganglion. This name reflects the fact that the cell bodies, considered as a unit,has a spiral (or perhaps more accurately, a helical) shape, reflecting the shape of the cochlea. The terms "cochlear nerve fiber" and "spiral ganglion cell" are used, to some degree, interchangeably, although the former may be used to more specifically refer to the central axons of the cochlear nerve. These central axons exit the cochlea at its base, where it forms a nerve trunk. In humans, this aspect of the nerve is roughly one inch in length. It projects centrally to the brainstem, where its fibers synapse with the cell bodies of the cochlear nucleus. A good anatomical description of human auditory nerve fibers is provided by Spoendlin and Schrott (1985). Important earlier work was done by Schuknecht.

It was once believed that most of the cochlear nerve fibres were directed to the outer hair cells, but it is now understood that at least 90% of the cochlear ganglion cells terminate on inner hair cells, the rest terminating on the outer hair cells.

The transmission between the inner hair cells and the neurons is chemical, using glutamate as a neurotransmitter.

It emerges from the medulla oblongata and enters the inner skull via the internal acoustic meatus (or internal auditory meatus) in the temporal bone, along with the facial nerve.

Types of neuronsEdit

The cochlear neurons can be divided into two groups: Type I and Type II.

  • Type I neurons make up 90-95% of the neurons and innervate the inner hair cells. They have a relatively large diameter, and are bipolar and myelinated. Each type I axon innervates only a single hair cell, but each hair cell directs its output to an average of 10 nerve fibres
  • Type II cells, which have a relatively small diameter, connect with the outer hair cells, are monopolar and are not myelinated.

Cochlear nuclear complexEdit

The axons from each cochlear nerve terminate in the cochlear nuclear complex which are ipsilaterally located in the medulla of the brainstem. The cochlear nucleus is the first 'relay station' of the auditory nervous system and receives mainly ipsilateral afferent input.

The three major components of the cochlear nuclear complex are: (see figure below)

  • the dorsal cochlear nucleus (DCN)
  • the anteroventral cochlear nucleus (AVCN)
  • the posteroventral cochlear nucleus (PVCN)

Each of the three cochlear nuclei are tonotopically organised. The axons from the lower frequency area of the cochlea innervate the ventral portion of the dorsal cochlear nucleus and the ventrolateral portions of the anteroventral cochlear nucleus, while the higher frequency axons project into the dorsal portion of the anteroventral cochlear nucleus and the uppermost dorsal portions of the dorsal cochlear nucleus. The mid frequency projections end up in between the two extremes, in this way the frequency spectrum is preserved.

FunctionsEdit

The cochlear nerve, carries information about hearing

InnervationsEdit

The nerve splits into two large divisions - the cochlear nerve and the vestibular nerve. Broadly speaking, the cochlear nerve innervates the cochlea, while the vestibular nerve goes to the vestibular apparatus.

PhysiologyEdit

How hearing information is coded on the nerve has long been a matter of scientific debate between two competing theories, a place theory and a rate theory.


Additional imagesEdit

External linksEdit


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Cite error: <ref> tags exist, but no <references/> tag was found

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