Vestibular systems

Question 1

What are the functions of the vestibular system?

Answer 1

Gaze stabilisation.

Maintain spatial orientation- plane illusion or train illusion may impair this.

Self vs. world motion perception.

Question 2

What vestibular structures are responsible for detecting angular acceleration?

Answer 2

3 semi-circular canals.

Question 3

What vestibular structures are responsible for detecting linear acceleration?

Answer 3

2 otolith organs.

Question 4

What connections does the vestibulo-ocular reflex have?

Answer 4

Ocular

Spinal

Autonomic

Cortical

Question 5

What sensations are the different vestibular projections responsible for?

Answer 5

Vestibulo-ocular = nystagmus.

Vestibulo-spinal = unsteadiness.

Vestibulo-autonomic = nausea.

Vestibulo-cortical = vertigo.

Question 6

What are the 2 components of the vestibular labyrinth?

Answer 6

Bony labyrinth- bounded by petrous temporal bone filled with perilymph.

Membranous labyrinth- filled with endolymph, contains receptor cells, located within the utricle, saccule and semi-circular canals.

Question 7

Where are epithelial hair cells located in the vestibular system?

Answer 7

Macula- in utricle and saccule.

Crista- of ampulla (swelling of semi-circular canals).

Question 8

Where do the primary afferent neurons of the vestibular system have their cell bodies?

Answer 8

Vestibular ganglion.

Question 9

Where do the peripheral processes of the primary afferent neurons of the vestibular system terminate?

Answer 9

Macula and ampulla.

Question 10

Where do the central processes of the primary afferent neurons of the vestibular system synapse?

Answer 10

Brainstem vestibular nuclei.

Question 11

What are hair cells?

Answer 11

Mechanical transducers detecting static tilt and acceleration.

Embedded in a gelatinous matrix contain calcium carbonate crystals- uloconia.

Stereocilia are arranged in rows of varying heights, and there is a single long kinocilium.

Question 12

What are the 2 types of nerve endings on hair cells?

Answer 12

Type I: chalice-like endings form ribbon synapses.

Type II: simple nerve terminals.

Question 13

What is the transduction mechanism of vestibular hair cells?

Answer 13

Mechanoelectrical transduction mechanism similar to the cochlea.

Hair cell receptor potential: toward the kinocilium = depolarisation; away from the kinocilium = hyperpolarisation.

Ganglion cell discharge: toward the kinocilium = increased frequency; away from the kinocilium = decreased frequency.

Question 14

What are the 4 main targets that the vestibular nuclei project to?

Answer 14

Spinal cord.

Nuclei of the extraocular muscles.

Cerebellum.

Centres for cardiovascular and respiratory control.

Question 15

How do the vestibular pathways influence the static labyrinth (otoliths)?

Answer 15

Vestibulospinal tract.

Antigravity muscles that contribute to upright posture and equilibrium.

Blood pressure.

Question 16

How do the vestibular pathways influence the kinetic labyrinth (semi-circular canals)?

Answer 16

Medial longitudinal fasciculus (MLF).

Eye movements that ensure that the retinal image is kept stationary when the head moves.

Postural adjustments.

Cardiovascular and respiratory function.

Question 17

How do postural reflexes work?

Answer 17

Integrate sensory information from vestibular apparatus, somatic receptors and the eyes to increase extensor muscle tone and maintain upright posture.

Question 18

What are postural reflexes mediated by?

Answer 18

Brainstem descending tracts: vestibulospinal tracts and reticulospinal tracts.

Question 19

What is the vestibulo-ocular reflex?

Answer 19

When the head rotates to the left, the eyes rotate in compensation to the right with repositioning saccades to the left.

VOR operates to maintain the gaze on a selected target.

Question 20

How may the integrity of the vestibular system be tested to assess the condition of the brainstem, e.g. in comatose patients?

Answer 20

A horizontal vestibulo-ocular reflex can be elicited by warming or cooling the endolymph in the semi-circular canals.

A warm caloric test applied to one ear should produce a slow drift of the eyes away from the stimulated side followed by a fast saccade towards the stimulated side.

The direction of the nystagmus is named in accordance to the fast saccadic phase.

Question 21

What is vertigo?

Answer 21

Illusion of movement.

Usually rotational or ‘true vertigo’.

Perceptual abnormality.

Question 22

How many people experience balance disorders such as vertigo and dizziness?

Answer 22

25% of people experienced dizziness at some time.
20% of people experienced dizziness severe enough to see a doctor.
50% experience dizziness over 75 years old.
25% of referrals to ENT and neurology clinics.

Question 23

Give examples of peripheral vestibular disorders.

Answer 23

Labyrinth and CNVIII, e.g. vestibular neuritis, BPPV, Meniere’s disease, BVF, UVF.

Question 24

Give examples of central vestibular disorders.

Answer 24

CNS (brainstem/cerebellum), e.g. stroke, MS, tumours.

Question 25

What is the effect of a static head tilt on the static labyrinth of the vestibular system?

Answer 25

Tonic discharge modulated by head tilt and the change in firing is maintained as long as the head remains tilted.

Question 26

What is the state of the static labyrinth of the vestibular system in an upright position?

Answer 26

Vestibular ganglion neurons that innervate the saccule have tonic discharge due to constant hair displacement imposed by gravity.

Question 27

What is the effect of linear acceleration on the static labyrinth of the vestibular system?

Answer 27

In the horizontal plane, induces transient hair displacement of some cells of the utricular macula and modulation of spontaneous discharge in ganglion cells.

Question 28

What is the effect of angular acceleration on the kinetic labyrinth of the vestibular system?

Answer 28

Hair cells in the crista respond to alteration of the velocity of the rotational movement (angular acceleration) in the plane of the semi-circular canals- output signal on CNVIII is velocity.

Acceleration towards the side of the receptor increases firing rate, while deceleration decreases it.

Rotation of the head in any plane produces change of activity of the receptors in one or more semi-circular canals.

Question 29

Describe the bilateral semi-circular canal activity during head rotation (kinetic labyrinth of vestibular system).

Answer 29

Head rotation deforms the hair cells of the left and right semi-circular canals in opposite directions.

Inertia of movement causes endolymph to move in opposite direction with respect to the canals.

Firing rate of vestibular ganglion cells increases on the left side and decreases on the right side.

Push-pull arrangement operates for all 3 pairs of canals.

Question 30

Where do primary afferent fibres in CNVIII terminate?

Answer 30

Vestibular nuclei of the brainstem and in the cerebellum.

Question 31

List vestibular nuclei.

Answer 31

Superior

Lateral

Medial

Inferior

Question 32

How are the vestibular nuclei somatotopically organised?

Answer 32

Static labyrinth (otoliths)- lateral and inferior.

Kinetic labyrinth (semi-circular canals)- superior and medial.

Question 33

Describe the path of the lateral vestibulospinal tract.

Answer 33

Descends ipsilaterally in ventral funiculus of spinal cord.

Axons terminate in lateral part of ventral horn and influence motor neurons to limb (especially extensor antigravity) muscles.

Question 34

Describe the path of the medial vestibulospinal tract.

Answer 34

Descends bilaterally in medial longitudinal fasciculus (MLF) to cervical and upper thoracic spinal cord.

Axons terminate in medial part of ventral horn and influence motor neurons to neck and back muscles.

Question 35

Describe the vestibular pathways to the thalamus and cortex.

Answer 35

All vestibular nuclei project to ventral posterior and ventral lateral nuclei of the thalamus.

Thalamic nuclei project to 2 cortical areas (2V and 3a)- part of the head region of the primary somatosensory cortex.

Projection also to superior parietal cortex- ‘vestibular cortex’ concerned with spatial orientation.

Cortical projections may account for feelings of dizziness (vertigo) during certain kinds of vestibular stimulation.

Question 36

Give examples of acute vestibular disorders.

Answer 36

Vestibular neuritis (‘labyrinthitis’).

Labyrinthine concussion.

Question 37

What is vestibular neuritis?

Answer 37

Sudden, unilateral vestibular loss (vertigo, nausea, unsteadiness, nystagmus).

Hearing spared.

No CNS symptoms or findings.

Viral- after URTI; mini-epidemics.

Days to weeks.

Question 38

Give an example of an intermittent vestibular disorder.

Answer 38

Benign paroxysmal positional vertigo (BPPV).

Question 39

Give examples of recurrent vestibular disorders.

Answer 39

Meniere’s disease.

Migraine.

Question 40

What is Meniere’s disease?

Answer 40

Rare.

Build-up of endolymphatic pressure (‘hydrops’).

Hearing impaired.

Triad: vertigo, tinnitus, deafness.

Question 41

Give an example of a progressive vestibular disorder.

Answer 41

Acoustic neuroma (CNVIII).

Question 42

What are some non-vestibular causes of dizziness?

Answer 42

Heart disorders

Presyncopal episodes

Orthostatic hypotension

Anaemia

Hypoglycaemia

Psychological

Gait disorders