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The vestibular system includes the peripheral vestibular receptors, vestibular component of the VIII nerves, and the vestibular nuclei and their central projections. It participates in the maintenance of stance and body posture; coordination of body, head, and eye movements; and visual fixation.


The membranous labyrinth is the bony external wall of the inner ear, located within the temporal bone. It is filled with endolymph and surrounded by perilymph, lies in the bony labyrinthine space within the temporal bone of the skull base (Fig 17–1). Two special sensory systems receive their input from structures in the membranous labyrinth: the auditory system, from the cochlea (see Chapter 16), and the vestibular system, from the remainder of the labyrinth.


The human ear (compare with Fig 16–1).

The static labyrinth gives information regarding the position of the head in space; it includes the specialized sensory areas located within the saccule and the utricle (see Fig 17–1). Within the utricle and saccule, otoliths (small calcium carbonate crystals, also termed otoconia) are located adjacent to hair cells clustered in macular regions. The otoliths displace the hair cell processes and excite the utricle and saccule in response to horizontal and vertical acceleration.

The kinetic labyrinth consists of the three semicircular canals. Each canal ends in an enlarged ampulla, which contains hair cells, within a receptor area called the crista ampullaris. A gelatinous partition (cupula) covers each ampulla and is displaced by rotation of the head, displacing hair cells so that they generate impulses. The three semicircular canals are oriented at 908 to each other, providing a mechanism that is sensitive to rotation along any axis.


The peripheral branches of the bipolar cells in the vestibular ganglion course from the specialized receptors (hair cells) in the ampullae and from the maculae of the utricle and the saccule. The central branches run within the vestibular component of cranial nerve VIII to enter the brain stem and end in the vestibular nuclei (Figs 17–1 and 17–2; see also Chapter 7).


Principal vestibular pathways superimposed on a dorsal view of the brain stem. Cerebellum and cerebral cortex removed. (Reproduced with permission from Ganong WF: Review of Medical Physiology, 22nd ed. New York, NY: McGraw-Hill Education; 2005.)

Some vestibular connections go from the superior and lateral vestibular nuclei to the cerebellum, where they end in the cerebellar cortex within the flocculonodular component (see Chapter 7). Others course from the lateral vestibular nuclei into the ipsilateral spinal cord via the lateral vestibulospinal tracts, from the superior and medial vestibular ...

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