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The Vestibular System

The Vestibular System. Two major subsystems: (1) Semicircular canals, (2) Otolith system (utricle and saccule). Thickened endings of SCC = ampullae (ampullae=plural, ampulla=singular). (from Perkins & Kent, 1986).

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The Vestibular System

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  1. The Vestibular System

  2. Two major subsystems: (1) Semicircular canals, (2) Otolith system (utricle and saccule). Thickened endings of SCC = ampullae (ampullae=plural, ampulla=singular) (from Perkins & Kent, 1986)

  3. Another view showing the ampullae of the SCCs and the utricle and saccule of the otolith system (from Deutsch & Richards, 1979)

  4. receptors in ampullae = cristae (from Perkins & Kent, 1986) receptors in otolith system (utricle & saccule) = maculae

  5. Cristae in ampullae of SCC responsible for sensing angular acceleration (pitch, roll, & yaw) (from Perkins & Kent, 1986) Maculae in the otolith system are responsible for sensing linear acceleration (speeding up or slowing down)

  6. The motion-detecting receptors in the vestibular system are hair cells that operate on general principles that are identical to those we discussed for HCs in the cochlea: Motion in one direction (short hairs tipping in the direction of tall hairs) produces an electrical disturbance in the HC that stimulates the firing of 8th N fibers; Motion in the other direction (tall hairs tipping in the direction of short hairs) inhibits the firing of 8th N fibers

  7. Vestibular and cochlear branches of the 8th nerve (from Deutsch & Richards, 1979)

  8. What the Auditory and Vestibular Systems Have in Common(and why some disease processes can affect both hearing & balance) • Common Fluid System. The membranous labyrinth is one continuous fluid system serving both hearing and balance. If there’s something wrong with this fluid system, both hearing and balance will be affected. Example: Meniere’s Disease (more later). • Hair Cell Motion Detectors. Hearing and balance both involve the detection of motion: slowly varying (i.e., low frequency) in the case of balance, higher frequency vibratory motion in the case of hearing. In both cases, the motion detectors are hair cells that operate on nearly identical principles. We’ll see later that Meniere’s Disease affects the HCs in both the cochlea and the vestibular system – hearing and balance are both affected.

  9. Innervation. Hearing and balance are innervated by separate branches of the same cranial nerve. A tumor that presses on the 8th N after the vestibular and cochlear branches have joined can affect both hearing and balance. There are many case of “acoustic neuromas” (8th N tumors) in which the earliest symptoms are problems with balance rather than hearing. (More later.)

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