Neuro 11: Vestibular system

Question 1

What are the inputs to the vestibular system

Answer 1

Visual, Rotation and gravity (inner ear.. movement of head) Pressure in heal

Question 2

What are the outputs

Answer 2

Ocular reflex/postural control (spinal reflex) (+nausea!)

Question 3

Where is the central processing of vestibular system

Answer 3

Brainstem (vestibular nucleus)

Question 4

Which part of the ear is important in balance

Answer 4

The membranous labyrinth …. Note…. the bony labyrith is the bony outer wall of the inner ear…. vestibule (=saccule + utricle), SCC and cochlea, and is hollowed out of the temporal bone…. Inside this boney cavity is perilymph…. inside the perilymph, there is a ‘membranous labyrinth’ containing endolymph… (i.e. a membranous portion inside the bony structure)… so this membranous structure is the SCC, the utricle, the saccule, and also the scala medius. The Scala vestibule and scala tympani are outside this membranous labyrinth and have perilymph.

Question 5

Name the 6 organs in the membranous labyrinth Which organ connects the SCC to the cochlea

Answer 5

Anterior semicurcular canal, posterior semicircular canal and lateral semicircular canal, the utricle and the saccule and the cochlea saccule connects

Question 6

Where do all semicircular canals join

Answer 6

To the utricle

Question 7

Which 2 semicircular canals join each other

Answer 7

anterior and posterior semiciruclar canal

Question 8

What is the saccule connected to

Answer 8

The utricle and the chochlea

Question 9

What is inside and outside of the membranous labyrinth

Answer 9

Outside: perilympth Inside: endolymph

Question 10

Outline innervation in thhis area

Answer 10

From cochlea: spiral ganglia from around the cochlea merge to form the cochlear nerve From vestibule + SCCs: various nerves merge toform the scarpa ganglia, which then forms the vestibular nerve.

Question 11

Look at the positioning of the labyrinth in the head.

Answer 11

Look at the diagram in the scull

Question 12

State the cell types in the vestibular system (different to hearing inner and outer hair cells!)

Answer 12

Type I: More in number Direct aferents, indirect eferents Type II: Direct aferents and eferents

Question 13

What are the two types of organs in the membranous labyrinth

Answer 13

Static labyrinth=otolith organs= utricle + saccule Called otoliths because they have carbonate crystals which move (not endolymph fluid moving like in the SCC) Kinetic labyrinth= semiciruclar canals

Question 14

Where do neurons from hair cells synapse and where do fibres project from here

Answer 14

Scarpas ganglion… then project to vestibular nuclei

Question 15

Define kinocilium

Answer 15

Special type of cilia on the surface of hair cells in this region

Question 16

What stimulates hair cells

Answer 16

In otoliths: deflection of forces or inertial resistance to acceleration (gravity) In SCC: enolymphatic fluid rotation

Question 17

What generates action potential in the hair cell… and how does this affect the firing rate to scarpas ganglion

Answer 17

If force is towards the kinoclium, depolarisation (increasing firing rate) If force is away from kinocilium, hyperpolarisation (decreasing firing rate)

Question 18

Outline the blood supply of the inner ear

Answer 18

The anterior inferior cerebellar artery (AICA) from the basillar artery…. which can affect ear

Question 19

Where do primary afferents terminate from this area

Answer 19

Primary afferents end in vestibular nuclei and in cerebellum

Question 20

Where do primary afferents from the vestibular system terminate generally, and for each type of labyrinth

Answer 20

Terminate in vestibular nuclei and in cerebellum Static- lateral and inferior Kinetic- superior and medial

Question 21

Where are the hair cells contained in the otolithic organs… describe the structure here

Answer 21

In the MACULA…. you have hair cells + supporting cells, On top of which you have the ‘otolithic membrane’, i.e. a gelatinous matrix On top of this you have the ‘otoconia’ which are the carbonate crystals.

Question 22

What is the function of the saccule and utricle and how do the macula achieve this

Answer 22

Saccule= detect movement in the VERTICLE and anteroposterior direction. Saccule oriented in the verticle plane, with hair cells at right angle to it. so it senses up and down movement Utricle= detect movement in the LATERAL and anteroposterior directions.

Question 23

Where are the vestibular nuclei projecting to

Answer 23

spinal cord nuclei of the extraocular muscles Cerebellum Centers for cardiovascular + respiratory control

Question 24

What are the vestibulo cerebellar pathways

Answer 24

Movement coordination Posture regulation VOR (eye movements) modulation

Question 25

Outline the pathway of signals from the vestibular system to thalamus and cortex

Answer 25

Vestibular nuclei: project to thalamus Thalamic nuclei: project to the head region of the primary somatosensory cortex Also to superior parietal cortex: ‘vestibular cortex’ concerned with spatial orientation. Cortical projections may account for feeling of dizziness during certain kinds of vestibular stimulation

Question 26

Functin of vestibular system

Answer 26

To detect and inform about head movements. To keep images fixed in the retina during head movements. Postural control

Question 27

T/f when not moving there is no firing of neurons in this area

Answer 27

F… there is a resting discharge…. When hair bundles are reflected towards X there is excitation and increased impule frequency When reflected away, decreased impulse frequency (hyperpolarisation)

Question 28

Are there opposing striola in the macula

Answer 28

YES…. So when moving head in one direction, then the crystals will move forward…. within the maculae, some hair bundles will depolarise and some will hyperpolarise

Question 29

State the movement type sensed in the utricle vs saccule vs semi circular canals

Answer 29

Angular (rotatory) motion (of the head) is sensed by the semicircular canals Acceleration of the head and strength and direction of gravity are sensed by the otolith organs. utricle is sensitive to a change in horizontal movement, and the saccule gives information about vertical acceleration NB: Vector sum of utricular and saccular stimulation patterns give signal of linear acceleration in all 3xD directions (I.E. THE SCC DON’T TELL ABOUT ACCELERATION, BUT INSTEAD ABOUT ANGULAR MOTION) The pattern of stimulation from all canals on both sides signals rotation in all 3XD directions.

Question 30

When turning your head horiaontally what happens to the endolymph

Answer 30

In the lateral SCC, endolymph does not move whereas the canal does, so the endolympoh moves in a different direction relative to the SCC

Question 31

How are otolith hair cells stimulated

Answer 31

By inertial resistance of the otoconial mass to linear head acceleration (huh?) Basically, the crystals create weights on different areas of the hair cells depending on the movement of head turning and this will stimulate different subsets of cells

Question 32

What is the striola

Answer 32

Basically in the centre of the macula in the otoliths there is almost a mirror line…. the kinocilia on one side of this line point in an opposite direction to those on the opposite side. As a result, if moving in a certain direction, some of the hair cells will be hyperpolarised and the other depolarised so important for redundancy VECTOR SUM of utricular and saccular stimulation patterns give signal of linear acceleration

Question 33

Where are hairs contained in the SCC

Answer 33

In the ampulla (the widening of the canals near the utricle and saccule) in a layer called the crista (NOT TO BE CONFUSED WITH THE CARBONATE CRYSTALS IN THE OTOLITH ORGANS….. there are no crystals here!!!)

Question 34

Differentiate the orientation of hair cells in the saccule and utricle vs in the SCC

Answer 34

In saccule and utricle, the hair cells are oriented in opposite directions depending on which side of the striola within the macula. In SCC, all hair cells are orinted in the SAME direction (different directions between different canals but SAME DIRECTION within each canal). Also same direction on each side of the head

Question 35

What is the name of the gelatianous projection from the crista in SCC

Answer 35

Cupula (gel is less dense than the gelitanous layer in the otoliths) it closes the ampulla

Question 36

What is the point of the cupula

Answer 36

When the endolymph in the SCC moves and pushes against the cupula (which seals the ampulla), the cupula will be deflected, causing increased firing or inhibition of the hair cells underlying the cupula depending on the side that the cupula is being pressed from

Question 37

Rule for which canal is stimulated and which inhibited upon head rotation

Answer 37

If turning head to the right, the right canal is stimulated and the left inhibited and vice versa. When head rotation decelerates to stop (ie acceleration in the opposite direction) the canal on the opposite side is stimulated. Eg stopping a rightwards rotation stimulates left canal.

Question 38

T/F at rest, each canal does not fire

Answer 38

F: Each canal has a tonic firing rate so that when the head is still, the tonuses from the right and left canals balance out

Question 39

T/f loss of canal function on one side gives a permanent partial impairment of sensitivity to rotation in the ‘on’ direction of the impaired canal (i.e. damage to right canal will give loss of right turning sensation), which is the same with damage to the otoliths

Answer 39

F: Everything true except not with otoliths as they are omnidirectional (so can be damaged on one side—> as the striola makes for different hair cell directions)

Question 40

What happens if the right canal is defunct

Answer 40

At rest, there will be more firing coming from the left (basal firing or ‘tonus’) canal than the right (which is damaged so not firing at all), so it will feel like your head is tuning to the left

Question 41

What is vertigo

Answer 41

In unilateral canal lesion, you (i.e. see card 40), head feels like it is spinning in one direction (illusory rotation to intact side)- or feeling like on a boat or ground is unsteady = SYMPTOM CALLED VERTIGO

Question 42

Explain vestibular nystagmus

Answer 42

When you normally turn your head to one side, the eyes turn (in an ocular reflex) to the opposite side (so that the eyes would stay in the same position even if head turns). When turning head to the left, the eyes move to the right. So if you have an acute unilateral vestibular disorder, and a right canal is not working, then there is unopposed tonus from the left ear, so the head thinks we are turning to the left. As a result, it will turn the eyes to the right in an vestibulo-ocular reflex. Drifting of eyes picked up by the brainstem which intermittently resets eye position with fast saccades generating pattern of vestibular nystagmus which beats back to the to the intact side.

Question 43

Why is vestibular nystagmus only observed in acute stage of vestibular dysfunction

Answer 43

minimised by visual suppression mechanisms

Question 44

Outline where balance is perceived in the cortex and how it gets there (i.e. the afferents)

Answer 44

vestibular projections via thalamus to tempero-parietal ‘spatial’ cortex subserve perception of motion in space

Question 45

Explain the vestular ocular reflex

Answer 45

Superior and medial vestibular neurons project onto motor nuclei supplying extraocular muscles

Question 46

What is the mechanism for movement of the eyes in the opposite direction to the turning of the head (horizontal)

Answer 46

Imagine turning head to the left…. eyes need to turn right. So right eye will need to move away from nose (abduct) and the left eye will need to move towards the nose (adduct)…. how is this achieved: Axons of medial vestibular nucleus crossing the midline and projecting to CONTRALATERAL abducens nucleus to abduct the eye (via the lateral rectus muscle) Axons from the VI cross and ascend in the MLF, and excite the contralateral oculomotor (III) nucleus to adduct the other eye (in the opposite direction to head rotation) eye and head rotations cancel each other so that the direction of fixation of the eyes remains stabilised on the visual target

Question 47

How is vertical vestibulo-ocular reflex generated

Answer 47

Superior vestibular neurones from the vertical canals project ipsilaterally to the IIIrd and IVth nuclei to generate vertical vestibular-ocular reflexes.

Question 48

What is ‘physiological vestibular nystagmus’

Answer 48

With continuing head rotation frequent saccades reposition the eyes more centrally (by vestibular ocular reflex) to form an overall pattern of normal or ‘physiological vestibular nystagmus’

Question 49

Describe oscillopsia and how would you test?

Answer 49

Vestibular dysfunction impairs eye fixation when turning head… vestibulo-ocular reflex is the only mechanism which can drive fast compensatory eye movements. Patient feels like visual world is bouncing or laggging behind during active or passive head movements Head shaking test: -Normal: shaking head patient can fix on target Bilateral loss of ves. functin: eyes taken off target by head swing and mutliple catch up saccades needed Loss on one side: turning towards the good side, eyes will seem on target…. on swing to lesioned side, eyes off target and need saccades

Question 50

Define ataxia

Answer 50

lack of voluntary coordination of muscle movements that can include gait abnormality, speech changes and abnormalities in eye movements

Question 51

2 types of vestibular ataxia

Answer 51

Bilateral loss of vestibular function= mild gait ataxia worse at speed, rough ground Unilateral loss= leaning or falling to the lesioned side (due to ipsilaterally of vestibular-spinal projection)

Question 52

Outline efferent projection of vestibular system to the spinal cord

Answer 52

Lateral vestibulo-spinal tract: decends 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 Medial vestibulospinal tract descend 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 (so stops in lumbar region)

Question 53

Where are hair cells located in SCC and otolith organs

Answer 53

Otoliths… Macula: in utricle and saccule SCC…Crista: of ampulla (swelling of semicircular canals)

Question 54

The primary afferent neurons of the vestibular system have cell bodies where

Answer 54

The cell bodies of the vestibular nerve fibers are located in Scarpa’s Ganglion, comprising clusters of bipolar cells lodged in the internal auditory meatus of the petrous portion of the temporal bone and distributed within the emergent vestibular nerve fibers

Question 55

Which otolith organ gives rise to what

Answer 55

Saccule gives rise to cochlear duct and utricle gives rise to semi—circular canals.

Question 56

How many vestibular nuclei

Answer 56

4

Question 57

Where do vestibyular nuclei project to within the thalamus

Answer 57

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

Question 58

When does osscilopsia occur vs when does vestibular nystagmus occur (important, one of learning objectives)

Answer 58

Oscillopsia…. bilateral lesion (during head movement) Vestibular nystagmus… unilateral lesion BOTH RELATED TO INABILITY TO STABILISE THE EYES

Question 59

What can happen during cute phase of unilateral vestibular loss and give an example of such a condition

Answer 59

Severe nausea and vomiting Vest. nystagmus presents due to unilateral vestibular loss

Question 60

What type of movement do the utricle and saccule give information of

Answer 60

Vector sum of utricular and saccular stimulation patterns give signal of linear acceleration in all 3xD directions.

Question 61

UNDERSTAND PHYSIOLOIGCAL NYSTAGMUS IT MAKES SENSE

Answer 61

!!!!

Question 62

Outline the direction of endolymph movement in SCC that leads to depolaerisation

Answer 62

Superior and Inferior SCC: (+) Away from Utricle Horizontal SCC: (+) Towards the Utricule

Question 63

T/f there is large firing of SCC at constant delocity

Answer 63

No, because the SCC respond respond to acceleration not to constant velocity. see slide 29

Question 64

`Which semicircular canals work together

Answer 64

Horizontals Left anterior with right posterior Right anterior with left posterior

Question 65

Outline the ipsilaterality of the lateral and medial vestibulospinal tract

Answer 65

Lateral: motor neurons to limb muscles… ipsilateral Medial: moto rneurons to neck and back muscles… bilateral

Question 66

Where is the lateral vestibulospinal tract located

Answer 66

Within the VENTRAL FUNICULUS

Question 67

Where are the cells of origin of each vestibulospinal tractq

Answer 67

Medial: cells begin in the medial vestibular nucleus Lateral: cells begin in the medial vestibular nucleus NOTE… THE TRACT STARTS IN THE NUCLEI BUT FEEDING ONTO THIS TRACT IS OF COURSE THE AFFERENTS WITH CELL BODIES IN THE SCARPA’S GANGLION FROM THE VESTIBULAR NERVE

Question 68

What is latency of the vestibuloocular reflex

Answer 68

8mseg latency this means takes 8 mseg for vestibular afferents to influence extrinsic eye muscles

Question 69

What is the name of the connection between the 6th nerve nucleus nad the 3rd nerve nucleus

Answer 69

Medial longitudinal fasciculus https://www.youtube.com/watch?v=m10vi4liwgo watch from 22 minutes

Question 70

What is used in diagnosis of vestibular disorders

Answer 70

Anamnesis Balance and Gait assessment Cerebellum Gaze assessment: eye movements. Vestibular tests: Caloric test vHIT VEMP Rotational test Imaging: CT Scan, MRI Subjective assessment (questionnaires)

Question 71

Types of balance disorder classifie by location and examples of each

Answer 71

Peripheral vestibular disorders: labyrinth and VIII nerve eg, vestibular neuritis, BPPV, Meniere’s disease BVF, UVF Central vestibular disorders: CNS (brainstem/cerebellum) eg, stroke, MS, tumours