Brainstem Generators

Question 1

What does it mean for an eye movement to be conjugate?

Answer 1

The movement of both eyes are coordinated in the same direction

Question 2

What are examples of conjugate eye movements?

Answer 2

• Vestibular-Ocular Reflex (VOR)
• Optokinetic Reflex (OKR)
• Smooth pursuit
• Saccades

Question 3

What is a dysjunctive eye movement?

Answer 3

When the eyes move in opposite directions e.g. vergence

Question 4

What is an example of dysjunctive eye movements?

Answer 4

Vergence movements e.g. convergence or divergence

Question 5

What is the purpose of slow eye movements?

Answer 5

To Maintain Gaze

To Compensate for self- or object-motion

To Reduce image blur & improve acuity

Question 6

What are examples of slow eye movements?

Answer 6

• VOR- Vestibular ocular reflex (reflex that accounts for head motion) , OKR - ocular kinetic reflex
• Smooth Pursuit (tracking a target)
• Vergence (tracking a target moving in depth)

Question 7

What is the purpose of fast eye movements?

Answer 7

To Change fixation

Question 8

What is an example of a fast eye movement?

Answer 8

•Saccades - these are rapid eye movements

(The purpose of saccades is to looking at new stimuli; scanning objects of interest; searching for information)

Question 9

Which brainste nuclei controls slow conjugate movements (e.g. VOR, OKR, Smooth Pursuit)?

Answer 9

Medial Vestibular Nucleus (MVN)

Question 10

What is an example of a slow dysjunctive movement?

Answer 10

Any vergence movement - e.g. convergence, diveregnce

Question 11

Which brainstem nuclei controls slow dysjunctive eye movements?

Answer 11

Mesencephalic Reticular Formation (MRF)

Question 12

Fast conjugate movements (saccades) are controlled by two different brainstem nuclei- how is this control dictated?

Answer 12

Horizontal saccades are controlled by Paramedian Pontine Reticular Formation (PPRF)

[Para median - because it runs close to the mid line, ‘Pon-‘ bc it is in the pons]

Vertical saccades are controlled by the : rostral interstitial nucleus of Medial Longitudinal Fasciculus (riMLF)

Question 13

Why is the MLF (Medial Longtitudinal Fasciculus) important in conjugate eye movements?

Answer 13

It is the means through which we activate synergists when trying to get both eyes to look in the same direction. - Fnacy way of saying this is:

It Coordinates the activity of Ocular Motor Neurons that innervate binocularly synergistic muscles

[E.g. If we were trying to look to the right with both eyes, dextroversion, the Right lateral rectus would be innervated from the abducens nerve/orginating from abducens nuclei, - 60% of the axons in the abducens nuclei would go toward innervating the right lateral rectus and 40% would travel through the MLF to activate the left medial rectus (the synergist so both eyes could look to the right together)- the activation of the synergists happens via travelling through the MLF]

Question 14

What is the MLF (Medial Longtitudinal Fasciculus) made up off?

Answer 14

The MLF contains numerous, separate tracts of heavily myelinated (fast conducting) axons forming direct connections between the Oculomotor, Trochlear & Abducens Nuclei & the Brainstem Generators Nuclei

Question 15

What does Fasciculus mean?

Answer 15

Bundles

Question 16

What can we tell about the structure and location of the MLF from its name?

Answer 16

MLF - Medial Longititidduinal Fasciculus

Medial - close to the midline

Longtitudinal - travels up and downwards

Fasciculus - made up of bundles

Question 17

What does unilateral damage to the MLF cause?

Answer 17

Inter-Nuclear Ophthalmoplegia (INO) - when the synergist muscle is failing to fully be innervated.

Px may also display nystagmus - unsteady fixation - that wondering of the eye.

Question 18

What are the causes of Inter-Nuclear Ophthalmoplegia (INO)?

Answer 18

Causes include: vascular infarcts, brainstem tumours, demyelinating diseases (e.g., multiple sclerosis), drug toxicity, viral infection, trauma

Question 19

What is gaze palsy?

Answer 19

A disorder in which pxs cannot make saccades , rapid eye movements - ‘an inability to shift bi-foveal fixation’.

This can occur both horizontally and vertically

Question 20

Is both horizontal and vertical gaze palsy within the same px common, and if so why?

Answer 20

No it is not common.

Rarely, both directions affected because the Generator Nuclei are in different brainstem locations.

Question 21

What cells does the PPRF (Paramedian Pontine Reticular Formation) contain?

Answer 21

The PPRF contains Excitatory Burst Cells (EBCs) which fire at very high frequency (up to 1000Hz) just before a saccade towards the same side that you want to look

Question 22

Do EBCs also project high frequency action potentials (known as bursts) to the contralateral synergist?

Answer 22

Yes so we can get that rapid eye movement of both eyes

Question 23

What do unilateral PPRF lesions lead to (lesions on one side)?

And as a result what does the patient do to compensate?

Answer 23

Unilateral PPRF (Paramedian Pontine Reticular Formation) lesions result in loss of saccades towards the lesioned side (paralysis of ipsi-versive gaze’).

Patients make whole-head saccades instead

Question 24

When you make a saccade you must ofcourse innervate the synergist (via the EBCs-excitatory Burst cells) but how do we relax the antagonist at the same rate as we innervated the synergist?

Answer 24

We use inhibitory burst cells

Question 25

What does the name ‘burst cell’ refer to?

Answer 25

Cells which fire at an incredibly high frequency (1000Hz)

Question 26

How are vertical saccades produced?

Answer 26

Upwards saccades are prodcued by the lateral riMLF via MLF projections to the contralateral Oculomotor (IO, SR) Nucleus, which cross the midline in the Posterior Commissure (PC)

Downwards saccades are produced by the medial riMLF probably mediates Down-gaze via projections in the MLF to the ipsilateral Trochlear & Oculomotor Nuclei

Question 27

What saccades are affected by large bilateral riMLF lesions?

Answer 27

Large bilateral riMLF lesions abolish all vertical saccades.

But smaller lesions selectively impair up- or down-gaze

Question 28

Where does the Posterior Commissure sit?

Answer 28

Just under the pineal gland (so tumours of the pineal gland can cause damage).

Question 29

What would a lesion affecting the Posterior Commissure or lateral riMLF affect?

Answer 29

Up-gaze palsy

+ convergence-retraction on attempted up-gaze (i.e. you struggle to contract on upwards gaze)

+ near-light dissociation: pupil constriction absent on attempted

Convergence, but present in response to light. (near reflex absent but light reflex present)

[Lesions of the lateral riMLF affect upwards saccades , Lesions of the medial riMLF affect downward saccades]

Question 30

If someone has a lesion affecting downward saccades can they not look down at all?

Answer 30

No - technically they can still make slow downward movements in response to head movements (i.e. VOR is still present)

Question 31

What is Oscillopsia?

Answer 31

When the VOR (Vestibular Ocular Reflex) is absent and so your eyes cannot account for head movements thus when you move your head the world spins.

Question 32

Summarise the structure of the vestibular organs in each ear

Answer 32

The vestibular organ in each ear is made up of the otoliths and semi-circular canals.

The otoliths are made up of the utricle and saccule and respond to head position in respect to gravity (static movement).

The semi circular canals repsond to dynamic motion of the head

Question 33

Describe what movment activates which semi-circular canal

Answer 33

Horizontal canal is excited by lateral motion towards that side;

Anterior canal is activated by forward (down) motion;

Posterior canal is activated by backward (up) motion.

Question 34

How can we detemine the direction of head movement based on impulses from vestibular hair cells?

Answer 34

Bi-directional signalling: increased activity when cilia are bent towards the kinocilium & decreased activity when bent away.

[At resting potential there is constant transmitter release]

Question 35

Describe the pathway of the horizontal Vestibular reflex (VOR) for a right side head movement

Answer 35

• A Rightward Head Motion, activates Hair Cells in the Horizontal SCC in Right inner ear (and inhibits horizontal SCC in left ear)
• This leads to excitation of the vestibular ganglion cells and the 8th cranial nerve which supplies
• Excitatory input to the ipsilateral (same side) MVN (as route of 8th cranial nerve is uncrossed). Excitatory Burst cells in the MVN both types of neurones in the abducens nerve – the ones that travel to the LR and the synergist (via the MLF).
• This causes Activation of left LR & right MR via the oculomotor pathway.
• Thus we get Compensatory Leftward Eye Movements

[Inhibitory input from opposite horizontal scc results in relaxation of antagonist muscles to improve precision]

Question 36

Describe the pathway of the Vestibular ocular reflex for a backward head movement

Answer 36

• Backward (up) head motion activates the Posterior scc’s in both inner ears
• 3 neuron pathway: Vestibular Ganglion Cells are innervated which innervate MVN & crossed inputs to the Trochlear (to innervate SO) & Oculomotor Nuclei (to innervate IR)
• This pathway is bilateral, so both eyes move down to compensate
• (Anterior scc are inhibited by backward head motion, resulting in relaxation of antagonistic Elevator muscles)

Question 37

Describe the pathway of the Vestibular ocular reflex for a forward head movement (i.e. your face moving towards the ground)

Answer 37

• Forward (down) head motion activates the Anterior scc’s in both inner ears
• 3 neuron pathway: Vestibular Ganglion Cells innervated which innervate MVN & crossed inputs to the Oculomotor Nuclei (which innervate SR, IO)
• This pathway is bilateral, so both eyes move up to compensate
• (Posterior scc’s are inhibited by forward head motion, resulting in relaxation of antagonistic Depressor muscles)

Question 38

How does oscillopsia occur?

[Full name of the condition is Head movement Dependent Oscillopsia (HMDO)]

Answer 38

from damage to:

• Vestibular Apparatus
• Vestibular Nuclei (+ problems with balance/posture)

MLF damage (+ other eye movement disorders)

Question 39

If Inter-Nuclear Ophthalmoplegia (INO) is a result of lesions in the MLF does that mean oscillopsia is always experienced with Inter-Nuclear Ophthalmoplegia (INO)?

Answer 39

No due to possible sparing from a projection from the Lateral Vestibular Nucleus