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Biological: Behavioural genetics · Evolutionary psychology · Neuroanatomy · Neurochemistry · Neuroendocrinology · Neuroscience · Psychoneuroimmunology · Physiological Psychology · Psychopharmacology (Index, Outline)
Brain: Cochlear nuclei | ||
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Dissection of brain-stem. Dorsal view. ("Cochlear nucleus" is labeled on left, fifth from the bottom.) | ||
Terminal nuclei of the cochlear nerve, with their upper connections. (Schematic.) The vestibular nerve with its terminal nuclei and their efferent fibers have been suppressed. On the other hand, in order not to obscure the trapezoid body, the efferent fibers of the terminal nuclei on the right side have been resected in a considerable portion of their extent. The trapezoid body, therefore, shows only one-half of its fibers, viz., those which come from the left. 1. Vestibular nerve, divided at its entrance into the medulla oblongata. 2. Cochlear nerve. 3. Accessory nucleus of acoustic nerve. 4. Tuberculum acusticum. 5. Efferent fibers of accessory nucleus. 6. Efferent fibers of tuberculum acusticum, forming the striae medullares, with 6’, their direct bundle going to the superior olivary nucleus of the same side; 6’’, their decussating bundles going to the superior olivary nucleus of the opposite side. 7. Superior olivary nucleus. 8. Trapezoid body. 9. Trapezoid nucleus. 10. Central acoustic tract (lateral lemniscus). 11. Raphé. 12. Cerebrospinal fasciculus. 13. Fourth ventricle. 14. Inferior peduncle. | ||
Latin | nuclei cochleares | |
Gray's | subject #187 788 | |
Part of | Medulla | |
Components | ||
Artery | AICA | |
Vein | ||
BrainInfo/UW | hier-717 | |
MeSH | [1] |
The cochlear nuclei are nuclei of the cochlear nerves located in the base of the fourth ventricle of the brain where they act as the first relay station for the [[auditory nerve fibres. They consist of:
- (a) the dorsal cochlear nucleus, corresponding to the tuberculum acusticum on the dorso-lateral surface of the inferior peduncle; and
- (b) the ventral or accessory cochlear nucleus, placed between the two divisions of the nerve, on the ventral aspect of the inferior peduncle.
Anatomy and function[]
The CN is the first relay station in the auditory system and is located at the dorso-lateral side of the brainstem, spanning the junction of the pons and medulla. Information is brought via the cochlear nerve, also called Cranial nerve VIII, to the CN. The cochlear nucleus can be divided into ventral and dorsal sections (DCN). The ventral part can further be divided into anterior and posterior sections (AVCN and PVCN), which are separated by the incoming auditory nerve fibers.
The auditory nerve fibers form a highly organized system of connections according to their peripheral innervation of the cochlea. Axons from the spiral ganglion cells of the lower frequency innervate the ventral portions of the dorsal cochlear nucleus and the ventrolateral portions of the anteroventral cochlear nucleus. In contrast, the axons from the higher frequency organ of corti hair cells project to 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.
At the level of the cochlear nuclei, the input from the two ears, for the most part, remains separated. There is evidence, however, that a significant number of neurons in the CN receives input from the contralateral CN. Just as the inner hair cells are arranged according to the best frequency (BF), so is the cochlea nucleus. This so-called tonotopic organization is preserved because only a few inner hair cells synapse on the dendrites of a nerve cell in the spiral ganglion, and the axon from that nerve cell synapes on only a very few dendrites in the cochlear nuclues.
Each cochlear nucleus has two parts, dorsal (DCN) and ventral (VCN). The Cochlear Nucleus receives input from each spiral ganglion, and also receives input from other parts of the brain. How the inputs from other areas of the brain affect hearing is unknown.
Location and projections from the CN[]
Projections to the Cochlear Nuclei[]
The major input to the cochlear nucleus is from the auditory nerve, a part of Cranial nerve VIII (the vestibulocochlear nerve). The auditory nerve fibers form a highly organized system of connections according to their peripheral innervation of the cochlea. Axons from the spiral ganglion cells of the lower frequencies innervate the lateral-ventral portions of the dorsal cochlear nucleus and the ventrolateral portions of the anteroventral cochlear nucleus. In contrast, the axons from the higher frequency organ of corti hair cells project to the dorsal portion of the anteroventral cochlear nucleus and the dorsal-medial 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. In this way, the cochlear nuclei inherit the tone based organization of the cochleae. This so-called tonotopic organization is preserved because only a few inner hair cells synapse on the dendrites of a nerve cell in the spiral ganglion, and the axon from that nerve cell synapes on only a very few dendrites in the cochlear nucleus.
The cochlear nuclei have long been thought to receive input only from the ipsilateral ear. There is evidence, however, for stimulation from the contralateral ear via the contralateral CN,[1] and also the somatosensory parts of the brain.[2]
Projections from the Cochlear Nuclei[]
There are three major projections from the cochlear nuclei. Through the medulla, one projection goes to the contralateral superior olivary complex (SOC) via the trapezoid body, whilst the other half shoots to the ipsilateral SOC. This projection is called the ventral acoustic stria (or, more commonly, the trapezoid body). Another projection, called the dorsal acoustic stria (DAS, also known as the stria of von Monakow), rises above the medulla into the pons where it hits the nucleus of the lateral lemniscus along with its kin, the intermediate acoustic stria (IAS, also known as the stria of Held). The IAS decussates across the medulla, before joining the ascending fibers in the contralateral lateral lemniscus. The lateral lemniscus contains cells of the nuclei of the lateral lemniscus, and in turn projects to the inferior colliculus. The inferior colliculus receives direct, monosynaptic projections from the superior olivary complex the contralateral dorsal acoustic stria, some classes of stellate neurons of the VCN, as well as from the different nuclei of the lateral lemniscus.
All of these inputs terminate in the inferior colliculus, although there are a few small projections that bypass the inferior colliculus and project to the medial geniculate, or other forebrain structures.
- Medial superior olive (MSO) via Trapezoid Body (TB) – Ipsilateral and contralateral stimulation for low frequency sounds.
- Lateral superior olive (LSO) directly and via TB – Ipsilateral stimulation for high frequency sounds.
- Medial Nucleus of Trapezoid body (MNTB) – Contralateral stimulation.
- Inferior colliculus – Contralateral stimulation.
- Periolivary nuclei (PON) – Ipsilateral and Contralateral stimulation.
- Lateral lemniscus (LL) and Lemniscal Nuclei (LN) – Ipsilateral and Contralateral Stimulation.
Cell types[]
There are four types of principal cells found in the cochlear nuclei: Bushy cells, stellate cells, octopus cells, and fusiform cells.
- Bushy cells are found in the anterior ventral cochlear nucleus (AVCN). These can be divided into spherical and globular bushy cells, depending on their appearance, and also their location. Within the AVCN here is an area of large spherical cells; caudal to this are smaller spherical cells, and globular cells. They have a few (1-4) very short dendrites with numerous small branching, which cause it to resemble a “bush”. The bushy cells are only found in the ventral portion of the cochlear nucleus. The bushy cells have specialized electrical properties that allow them to transmit timing information from the auditory nerve to more central areas of the auditory system. Some bushy cells can even improve the precision of the timing information. Bushy cells have responses very similar to those in the auditory nerve. The primary difference is that spontaneous activity is decreased by stimulation by adjacent frequencies, therefore leading to an even sharper tuning curve than seen in auditory nerve cells. These cells are usually innervated only by a selected few axons, which dominate its firing patterns. These afferent axons wrap their terminal branches around the entire soma, creating a large synapse onto the bushy cells. Therefore, a single unit recording of an electrically stimulated bushy neuron characteristically produces exactly one action potential and constitutes the primary response.
- Stellate cells, morphologically, have a radial, star-like dendritic tree, which is where they get their name. They are also called, chopper cells, in reference to their ability to fire a regularly-spaced train of action potentials for the duration of a tonal or noise stimulus. The chopping pattern is intrinsic to the electrical excitability of the stellate cell, and the firing rate depends on the strength of the auditory input more than on the frequency.
- Octopus cells are found in a small region of the Posterior Ventral Cochlear Nucleus (PVCN). The distinguishing features of these cells are their long, thick dendrites that typically emanate from one side of the cell body. Octopus cells produce an "Onset Response" to simple tonal stimuli. That is, they respond only at the onset of a specific frequency or frequency range at higher amplitudes. The octopus cells can fire with some of the highest temporal precision of any neuron in the brain. Electrical stimuli to the auditory nerve has been shown to evoke a graded post synaptic potential in the octopus cells. These EPSP’s are very brief. The octopus cells are thought to be important extracting timing information. It has been reported that these cells can respond to click trains at a rate of 800 Hz.
- Fusiform cells (also known as pyramidal cells) are found in the Dorsal Cochlear Nucleus (DCN). See the separate section on the DCN below.
Neurotransmitters: There are four neurotransmitters responsible for transmission of neural impulses, namely, GABA, Glycine, Norepinephrine, Glutamate, and Acetylcholine.
Structures[]
The input of auditory stimulus is through the Auditory Nerve (CN VIII). The auditory stimulus further travels through the AVCN as neural impulses and branches through the following structures:
- Medial superior olive (MSO) via Trapezoid Body (TB) – Ipsilateral and contralateral stimulation for low frequency sounds.
- Lateral superior olive (LSO) directly and via TB – Ipsilateral stimulation for high frequency sounds.
- Medial Nucleus of Trapezoid body (MNTB) – Contralateral stimulation.
- Inferior colliculus – Contralateral stimulation.
- Neurotransmitters: There are four neurotransmitters responsible for transmission of neural impulses, namely, GABA, Norepinephrine, Glutamate, and Acetylcholine.
- Periolivary nuclei (PON) – Ipsilateral and Contralateral stimulation.
- Lateral lemniscus (LL) and Lemniscal Nuclei (LN) – Ipsilateral and Contralateral Stimulation.
- Inferior colliculus – Contralateral stimulation.
See also[]
References[]
Additional images[]
External links[]
This article was originally based on an entry from a public domain edition of Gray's Anatomy. As such, some of the information contained herein may be outdated. Please edit the article if this is the case, and feel free to remove this notice when it is no longer relevant.
Brain: rhombencephalon (hindbrain) | |||||||||
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Metencephalon/ pons |
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Myelencephalon/ medulla |
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I-IV: olfactory - optic - oculomotor - trochlear
V: trigeminal: trigeminal ganglion
V1: ophthalmic: lacrimal - frontal (supratrochlear, supraorbital) - nasociliary (long root of ciliary, long ciliary, infratrochlear, posterior ethmoidal, anterior ethmoidal) - ciliary ganglion (short ciliary)
V2: maxillary: middle meningeal - in the pterygopalatine fossa (zygomatic, zygomaticotemporal, zygomaticofacial, sphenopalatine, posterior superior alveolar)
in the infraorbital canal/infraorbital nerve (middle superior alveolar, anterior superior alveolar)
on the face (inferior palpebral, external nasal, superior labial, infraorbital plexus) - pterygopalatine ganglion (deep petrosal, nerve of pterygoid canal)
branches of distribution (palatine, nasopalatine, pharyngeal)
V3: mandibular: nervus spinosus - medial pterygoid - anterior (masseteric, deep temporal, buccal, lateral pterygoid)
posterior (auriculotemporal, lingual, inferior alveolar, mylohyoid, mental) - otic ganglion - submandibular ganglion
VI: abducens
VII: facial: nervus intermedius - geniculate - inside facial canal (greater petrosal, nerve to the stapedius, chorda tympani)
at exit from stylomastoid foramen (posterior auricular, digastric - stylohyoid)
on face (temporal, zygomatic, buccal, mandibular, cervical)
VIII: vestibulocochlear: cochlear (striae medullares, lateral lemniscus) - vestibular
IX: glossopharyngeal: fasciculus solitarius - nucleus ambiguus - ganglia (superior, petrous) - tympanic - carotid sinus
X: vagus: ganglia (jugular, nodose) - Alderman's nerve - in the neck (pharyngeal branch, superior laryngeal ext and int, recurrent laryngeal)
in the thorax (pulmonary branches, esophageal plexus) - in the abdomen (gastric plexuses, celiac plexus, gastric plexus)
XI: accessory XII: hypoglossal
Auditory and vestibular pathways | ||||
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Auditory |
inner ear: Hair cells → Spiral ganglion → Cochlear nerve VIII → pons: Cochlear nuclei (Anterior, Dorsal) → Trapezoid body → Superior olivary nuclei → midbrain: Lateral lemniscus → Inferior colliculi → | |||
Vestibular |
inner ear: Vestibular nerve VIII → pons: Vestibular nuclei (Medial vestibular nucleus, Lateral vestibular nucleus) cerebellum: Flocculonodular lobe spinal cord: Vestibulospinal tract (Medial vestibulospinal tract, Lateral vestibulospinal tract) | |||
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