Eye movements and pupillary reflexes

Question 1

What three cranial nerves control the eye movements?

Answer 1

Oculomotor (III), Trochlear (IV) and Abducens (VI)

Question 2

What level is the oculomotor nerve?

Answer 2

Superior colliculus (midbrain)

Question 3

What are the oculomotor nerve nuclei?

Answer 3

Main oculomotor nucleus (supplies extrinsic eye muscles)

Accessory oculomotor nucleus/EWN (gives rise to preganglionic parasympathetic fibres).

Question 4

Where do projections from the EWN go?

Answer 4

Ciliary ganglion then to ciliary muscle and pupillary constrictor

Question 5

Where do projections from the main oculomotor nucleus go?

Answer 5

Enters superior orbital fissure in tendinous ring from which recti arise, and divides into superior branch (supplies superior rectus and levator palpebrae) and inferior branch (supplies medial/inferior rectus and inferior oblique).

Question 6

What muscles does the oculomotor nerve supply?

Answer 6

Medial rectus, superior rectus, inferior rectus, levator palpebrae, inferior oblique

Question 7

What is the pupillary light reflex?

Answer 7

Reflex that controls the diameter of the pupil, in response to the intensity (luminance) of light that falls on the retinal ganglion cells of the retina in the back of the eye.

Question 8

What is the afferent for the pupillary light reflex?

Answer 8

Photosensitive retinal ganglion cells, which convey information via the optic nerve.

Question 9

Where does the optic nerve terminate for the pupillary light reflex?

Answer 9

Some axons of the optic nerve connect to the pretectal nucleus of the upper midbrain

Question 10

Where do axons from the pretectal nuclei synapse to (pupillary light reflex)?

Answer 10

From the neuronal cell bodies in some of the pretectal nuclei, axons synapse on (connect to) neurons in the Edinger-Westphal nucleus.

Question 11

What is the efferent for the pupillary light reflex?

Answer 11

Edinger-Westphal nuclei: Parasympathetic preganglionic neuronal axons in the oculomotor nerve synapse on ciliary ganglion neurons.

Ciliary ganglia: Short post-ganglionic ciliary nerves leave the ciliary ganglion to innervate the Iris sphincter muscle of the iris.

Question 12

Is the pupillary light reflex consensual? What does this mean?

Answer 12

Yes, shining light in one eye will cause constriction of both eyes

Question 13

What makes the pupillary light reflex consensual?

Answer 13

The pretectal nucleus innervates both EWN

Question 14

What does an optic nerve lesion do to the pupillary light reflex?

Answer 14

Direct reflex in lesioned side is lost. Consensual reflex is also lost.

BUT on non lesioned side
Direct and consensual reflex is intact.

Question 15

What does a CNIII lesion do to pupillary light reflex?

Answer 15

Direct lost but consensual intact on lesioned side

On non lesioned side, direct intact but consensual lost

Question 16

What are Argyll Robertson pupils (AR pupils)?

Answer 16

Argyll Robertson pupils (AR pupils) are bilateral small pupils that reduce in size on a near object (i.e., they accommodate), but do not constrict when exposed to bright light (i.e., they do not react to light).

Question 17

What causes Argyll Robertson pupils (AR pupils)?

Answer 17

Loss of pretectal light input to the EWN

Question 18

Oculomotor nerve palsy?

Answer 18

‘down and out’ position of the affected eye (as lateral rectus and superior oblique still have tone). Also ptosis and mydriasis (pupil dilation)

Question 19

Trochlear nerve level

Answer 19

Nucleus of origin in midbrain at level of inferior colliculus - dorsal emergence

Question 20

What does the trochlea nerve innervate?

Answer 20

Superior oblique

Question 21

What does the superior oblique cause?

Answer 21

Depression/intorsion of eye (i.e. moving eye out and down.)

Question 22

Trochlea nerve palsy?

Answer 22

Vertical diplopia (overlapping images), most severe on looking downward and medially (because depression action of superior oblique is most pronounced when eye is abducted.

Difficulty looking down

Question 23

Abducens nerve level

Answer 23

Lies just lateral to the midline in the floor of the 4th ventricle. Nucleus in caudal pons

Question 24

What does the abducens nerve innervate?

Answer 24

Lateral rectus

Question 25

Abducens nerve palsy?

Answer 25

Loss of lateral eye movement, diplopia on looking to side, convergent squint.

Question 26

Superior rectus role

Answer 26

Main movement is elevation. Also contributes to adduction and medial rotation

Question 27

Inferior rectus role

Answer 27

Main movement is depression. Also contributes to adduction and lateral rotation

Question 28

Lateral rectus role

Answer 28

Abducts the eyeball (lateral movement).

Question 29

Medial rectus role

Answer 29

Adducts the eyeball (medial movement).

Question 30

Superior oblique role

Answer 30

Depresses, abducts and medially rotates the eyeball.

Question 31

Inferior oblique role

Answer 31

Elevates, abducts and laterally rotates the eyeball.

Question 32

Levator palpebrae role

Answer 32

Superior eyelid movement

Question 33

What are saccades?

Answer 33

Saccades are rapid, ballistic movements of the eyes that abruptly change the point of fixation.

Question 34

When do saccades occur and why?

Answer 34

Fixation eye movements when fixated at one point. Constant visual stimulus can make the photoreceptors or ganglion cells become unresponsive so eye movement constantly changes the stimuli.

Scanning a visual scene.

Question 35

What are smooth pursuit?

Answer 35

Slower tracking movements of the eyes designed to keep a moving stimulus on the fovea.

Question 36

Where are smooth pursuit movement coordinated by?

Answer 36

Frontal pursuit area of the frontal lobe

Question 37

What is involved in the correction of velocity during pursuit?

Answer 37

Cerebellum

Question 38

Alternating slow and fast movement of the eyes in response to such stimuli is called…

Answer 38

Optokinetic nystagmus.

Question 39

What is vergence?

Answer 39

Aligns the fovea of each eye with targets located at different distances from the observer

Maintains binocular vision.

Question 40

What two types of vergence movements are there?

Answer 40

Convergence of divergence

Object closer by, the eyes rotate towards each other (convergence), while for an object farther away they rotate away from each other (divergence).

Question 41

What eye movement allows the eyes to see depth?

Answer 41

Vergence

Question 42

What is the vestibulo-ocular reflex?

Answer 42

Stabilize the eyes relative to the external world, thus compensating for head movements.

Question 43

What is the sensory information provided to the VOR?

Answer 43

Vestibular information from the vestibular system (semi-circular canals)

Question 44

What directions does the VOR work in?

Answer 44

All directions

Question 45

What are the sensory and afferent signals in the ipsilateral VOR?

Answer 45

Hair cells excites vestibular ganglion, left horizontal canal as head turns left

Vestibular neuron projects in vestibulocochlear nerve (VIII) to lateral vestibular nucleus.

CONTRALATERAL

Question 46

What are the sensory and afferent signals in the contralateral VOR ?

Answer 46

Hair cell excites vestibular neuron

Vestibular neuron projects to the medial vestibular nucleus

Question 47

What follows Ipsilateral VOR lateral vestibular nucleus?

Answer 47

Second order neuron to ipsilateral occulomotor nucleus

Third order neuron projects in the occulomotor nerve (III) to left medial rectus

Left eye moves medially (right)

Question 48

What follows contralateral VOR medial vestibular nucleus (excitatory)?

Answer 48

Second order excitatory neuron projects to contralateral abducens nucleus

Third order neuron projects in abducens nerve (VI) to right lateral rectus (right eye moves laterally, towards the right)

Third order neuron travels in medial longitudinal fasciculus to synapse in the occulomotor nucleus and from there information flows to the left medial rectus.

Question 49

What follows contralateral VOR medial vestibular nucleus (inhibitory)?

Answer 49

Second order inhibitory neuron projects to the ipsilateral abducens nucleus

Third order neurons project to the left lateral recuts

Third order neuron also project to the contralateral occulomotor nucleus which then inhibits the right medial rectus

Question 50

What is the accommodation reflex?

Answer 50

Reflex action of the eye, in response to focusing on a near object, then looking at a distant object (and vice versa), comprising coordinated changes in vergence, lens shape (accommodation) and pupil size.

Question 51

Accommodation reflex sensory and afferent?

Answer 51

Light information from the retina is carried in the optic nerve, chiasm and tract, LGN and visual cortex

Question 52

What area of cortex interprets accommodation?

Answer 52

Peristriate area 19

Question 53

Accommodation reflex efferents?

Answer 53

Cortex sends signals via the Edinger-Westphal nucleus and the oculomotor cranial nerve nucleus

Innervates ciliary muscle, sphincter pupillae muscle
and the medial rectus

Question 54

If convergence what is the activity of ciliary, pupillae and medial rectus?

Answer 54

All contract

Question 55

If divergence what is the activity of ciliary, pupillae and medial rectus?

Answer 55

All relax

Question 56

Effects of lesion of sympathetic supply to the eye?

Answer 56

Horners syndrome, anhydrosis, ptosis, miosis,

Question 57

What does the MLF do?

Answer 57

Medial longitudinal fasiculus linking superior colliculus, oculomotor nuclei and vestibular nuclei with gaze control centres

Question 58

Where are horizontal saccades generated?

Answer 58

Paramedian pontine reticular formation

Question 59

What nerve nucleus receives the saccade information from the PPRF?

Answer 59

Abducens

Question 60

How does the abducens nucleus produce saccades?

Answer 60

Motor neurons which innervate ipsilateral lateral rectus

Interneurons cross midline and ascend in MLF to motor neurons for contralateral medial rectus (in the occulomotor nucleus)

Question 61

To make a saccade to a peripheral visual target what must occur?

Answer 61

Activity at retinotopic locationin the superior colliculus (SC) must occur.

Keeps the eyes fixating the current location

Via omnipause neurons which inhibit burst neurons in the PPRF

Question 62

Opsoclonus myoclonus

Answer 62

Rapid involuntary both horizontal and vertical, unpredictable conjugate fast eye movements without intersaccadic interval

Question 63

Where are vertical saccades generated?

Answer 63

Mesencephalic reticular formation