Vestibular Flashcards
Roles of vestibular system
- Orientate to vertical
- Control center of mass
- Stabilise head
- Sense and perceive self motion
Bony Labyrinth Anatomy
Sits within the temporal bone
Forms the structure and chambers of the peripheral vestibular system
Has 3 semicircular canals, vestibule (central chamber) and the cochlear
Filled with perilympatic fluid - high Na:K ratio
Membranous Labyrinth Anatomy
Sits suspended within the bony labyrinth and perilympahtic fluid (5% of space within bony)
Contains the 5 sensory organs (3 semicircular canals and 2 otolith organs)
Filled with endolymphatic fluid high K:Na ratio meaning it has a higher viscosity
Layers of the vestibular organ
Bony labyrinth → perilymph → membranous labyrinth → endolymph
Endolymph has higher viscosity due to high K:Na ratio
SCC structures and functions
Ampulla, Cupula and Hair cells
- Ampulla
- Bulb like expansion at the base of each of the canals
- Contains the cupula as well as the crista ampullaris (tuft of blood vessels, nerve fibers and supporting structures)
- Cupula
- Bridges the width of the ampulla which seals off the canal so endolymph cannot go from one side to the other
- Hair cells
- Housed within cupula
- 50-70 small stereocilia and one long kinocilium (these are arranged from smallest to longest)
Stimulation of hair cells within the SCC
- Each afferent neuron has a basal firing rate (base activity level), approx. 1.1.5 Hz
- Deflection of air cells with either excite of inhibit this firing rate based on the direction, this defection is caused by movement of endolymph fluid
- Excitation - stereocilia deflected towards kinocilium
- Inhibition - stereocilia deflected away from kinocilium
Structure of the otolith organs and the two types
Sensory maculae are hair cells covered in a gelatinous membrane
Otoconia refers to the calcium carbonate crystal imbedded into this membrane which provide increases mass making the membrane heavy.
This mass causes them to be sensitive to gravity and accelerations
Utricles - sensitive to horizontal motion
Saccule - sensitive to vertical
Vestibular nerve pathway and portions
- Primarily afferent fibers wit only 5-8% efferent
- Travels through the internal auditory canal to enter the brainstem at the pontomedullary junction
- Has 2 portions (pathologies may only effect one portion)
- Superior - supplies the anterior canal, lateral canal and utricle
- Inferior - supplies the posterior canal and saccule
Blood supply to the vestibular system
Supplied by the labyrinthine artery which originates from the anterior inferior cerebella artery (AICA) and basilar artery
There is no collateral blood supply meaning ischemic event or stroke will cause immediate damage
Also supplies cochlear meaning occlusion causes hearing loss with vestibular symptoms
The PICA supplies cerebellum so an occlusion hear will cause vestibular dysfunction within interruption to hearing
4 major vestibular nuclei in the brainstem
- Superior and medial - mostly input from SCC
- Lateral and inferior - mostly input from otolith organs
SCC function
- Provide information about velocity and direction, particularly CHANGES in these
- Enable VOR reflex, generates eye movement that match head velocity
- They are in a perpendicular arrangement, meaning each canal is perpendicular to the other two which allows for sensing of movement in all planes (yaw, pitch and roll)
What is Co-planar pairing of SCC
- 6 SCC form 3 pairs
- Laterals/horizontal pair
- LARP (left ant and right post)
- RALP (right ant and left post)
These are aligned with the optimal pull of the ocular muscle causing quick and effective VOR
It creates a push-pull rhythm meaning the endolymph within the pair is displaced in the opposite directions causing increased neural firing rate in one and decreased in the other.
Advantages of co planar pairing of SCC
- Creates a sensory redundancy when there is a unilateral loss meaning the brain will still receive information from the opposite side
- The brain can ignore changes in the neural firing rate that occur on both sides simultaneous. Such as when there is increased body or environment temp causing the endolymph to swell and increase viscosity
- Assists in compensation of sensory overload
Which direction does excitation occur
A canal is excited by head motion towards that canal in the appropriate plane e.g. L horizontal excited by L turns. Will cause excitation in one canal and inhibition in its pair.
However, the neural firing rate cannot go below 0 causing the sensory redundancy feature of the pair to not be accurate at high speeds (>180 deg/s) as the excitatory side is still increasing while the inhibitory side can no longer decrease.
Ampullopetal and Ampullofugal flow
Ampullopetal flow = toward the ampulla
Ampullofugal flow = away from ampulla
Ewald’s Laws
These laws are only appropriate for peripheral disorders!
1st
- Eye and head movement always occur in the same plane as the canal being stimulated
- Axis of nystagmus should match axis of SCC that generated it
2nd
- In horizontal SCCs ampullopetal flow cause greater stimulation than ampullofugal
3rd
- In vertical SCC ampullofugal flow causes greater stimulation than ampullopetal
Functions of the otolith organs
Sense linear acceleration of the head in all 3 planes in an upright position and the orientation of the head with respect to gravity
Utricle = horizontal
Saccule = vertical
They are very curved and the hair cells are fanned out meaning that can detect effects of gravity in all 3 planes (bean shaped)
What are the 3 main vestibular reflexes
Vestivulo ocular reflex
Vestibulospinal Reflex
VestibuloCollic Reflex
VOR - Vestivulo ocular reflex main function
- Maintains stable and clear vision during quick or non constant head movements. Maintains the image on the fovea f the retina during movements
- Head must be moving at variable velocity, visual target can be stationary or in motion
VOR Gain
Output (eye movement) : input (head movement)
- Gain of 1 - output = input
- Gain of 2 output is twice that of input
- Gain of 0.5 output is half that of input
Vestibular loss causes the gain to reduce → difficulty keeping eyes on target during fast head movements (retinal slip which will cause corrective saccade)
VSR - Vestibulospinal Reflex function and pathways
- Stabilises the head on the body and maintains upright posture
- Uses more input from otolith than SCC
- 3 major connections:
- Lateral vestibulospinal tract - anti grav postural motor activity
- Medial vestibulospinal tract - Ongoing postural changes and head position in response to SCC
- Reticulospinal tract - most balance reflexes
VCR - VestibuloCollic Reflex
- Acts on neck muscles to stabilise the head
- Reflex movement counters movement sensed by vestibular sensory organs
Outline of Vestibular Neuritis
- 2nd most common cause of vertigo
- Caused by acute inflammation of the Vestibular nerve CN 8
- Normally preceded (sometimes) by viral infection such as herpes, GI or upper resp infection
- Can be partial or full depending of which portions of the nerve are affected
- Superior VN= ant SCC, horizontal SCC and utricle (more common)
- Inferior VN = Posterior SCC and Saccule
Symptoms of Vestibular Neuritis
Symptoms:
- Acute onset of prolonged vertigo (1-4 days) this is referred to as Acute Vestibular Syndrome
- Nausea/vomiting
- Imbalance - sudden loss of one nerve will change basal firing rate
- NO hearing loss or other hearing symptoms as cochlea nerve remains intact
Sub acute symptoms:
- Movement induced giddiness
- Imbalance
- Nausea
- Fatigue
- Blurred or jumpy vision with head movement
Labyrinthitis outline and symptoms
Inflammation of the labyrinth within inner ear
Presents identical to neuritis (1-4 day, nausea, imbalance ect) but will also have hearing loss (normally unilateral)
Needs to differentiated from more central vestibular disorders such as AICA stroke (AICA also supplied cochlear)
Therefore, medical emergency with patients with unilateral hearing loss
Meniere’s Disease outline and symptoms
Accumulation of endolymph in the cochlear and vestibular organs either from increased production or decreased absorption, episodic due to fluid flucutation
- Two or more spontaneous episodes of vertigo each last 20 mins to 12 hrs
- Low to medium frequency hearing loss in one ear + low frequency tinnitus
- Lower frequencies are detected in the middle of the cochlear and due to pressure accumulation the center of the spiral or more susceptible
- Fluctuating aural symptoms
