Extra-Ocular Movements and Pupillary Reflexes

Question 1

In bright environments, constricts the pupil

Answer 1

Pupillary sphincter muscle

Question 2

In dim environments, dilates the pupil

Answer 2

Pupillary dilator muscle

Question 3

The lense is thinner and flatter when objects are

Answer 3

Further away (unaccomidation)

Question 4

The lense thickens to focus light on retina when objects are closer. This is called

Answer 4

Accomodation

Question 5

Which 4 extraocular muscles does CN III control?

Answer 5

Medial, inferior, and superior rectus and inferior oblique

Question 6

The biggest complaint of people with extraoccular muscle weakness is

Answer 6

Diplopia (double vision)

Question 7

Caused by the inability to position the image on the macula of both eyes

Answer 7

Diplopia

Question 8

Provides somatic motor (GSE) to 4 extraocular muscles and the levtor palpebrae superioris

Answer 8

Oculomotor nucleus and nerve

Question 9

Provides parasympthetic (GVR) innervation from Edinger-Westphal and preganglionic to pupillary constrictoy and ciliary muscles of lens

Answer 9

Occulomotor nucleus and nerve

Question 10

What are the 4 eye movements that result from CN III innervation?

Answer 10

Move eye up and down, towards the nose, and rotate externally

Question 11

Drooping of the upper eyelid (ptosis) occurs with

Answer 11

CN III Palsy, Horner’s syndrome, and Myasthenia gravis

Question 12

When the ipsilateral eye deviates down and out when patient looks straight ahead

-Due to CN III lesion

Answer 12

Exotropia

Question 13

With a CN III lesion, patient will complain of

Answer 13

Diplopia

Question 14

The most dorsal and medial part of the oculomotor nucleus

Answer 14

Edinger-Westphal nucleus

Question 15

The pupillary dilator muscle receives

Answer 15

Sympathetic innervation

Question 16

Lesions to the sympathetic fibers controlling the dilator muscle cause

Answer 16

Miosis (constricted pupil) with Horner’s syndrome

Question 17

Innervates the ciliart and constrictor muscles

-parasympathetic

Answer 17

Edinger-Westphal (GVE) nucleus

Question 18

Lesions to the Edinger-Westphal nucleus cause

Answer 18

Mydriasis (dilated pupil) and loss of pupillary constriction and accommodation

Question 19

Pupil constricts to light in normal eye, but when light is moved quickly to defective eye, it will dilate in response to it (because the input is “less”). This is called the

Answer 19

Swinging flashlight test for afferent pupillary defec

Question 20

It is best to diagnose Horner’s syndrome in

Answer 20

Dark light

Question 21

It is best to diagnose CN III damage in

Answer 21

Light

Question 22

Characterized by ptosis, miosis, and anhidrosis (decreased sweating)

Answer 22

Horner’s Syndrome

Question 23

Lesions may be in brainstem, hypothalamus, spinal cord (cervical and upper thoracic),T1-T2 spinal nerves, carotid plexus, or orbit for

Answer 23

Horner’s syndrome

Question 24

What is the near response triad in response to an object coming closer to the face?

Answer 24

1. ) Convergence (CN III)
2. ) Accomodation (Ciliary muscle CN III)
3. ) Pupillary constriction (Constrictor, CN III)

Question 25

Increases depth of field

Answer 25

Pupillary constriction

Question 26

Convergence and divergence are controlled by neurons in the midbrain near the oculomotor n.called the

Answer 26

Vergence center

Question 27

During accomodation, the ciliary muscle contracts. This releases zonule fibers allowing the lense to

Answer 27

Thicken

Question 28

For blurred images, we use

Answer 28

Accomodation

Question 29

For retinal disparity, we use

Answer 29

Vergence

Question 30

Causes mydriasis, loss of pupillary constriction (ipsilateral), and loss of accomodation

Answer 30

CN III E-W damage

Question 31

Ipsilateral lens will not change curve to adjust to view near objects with a deficit due to

Answer 31

E-W (CN III) damage

Question 32

The deficits seen in E-W damage of CN III are all

Answer 32

Ipsilateral

Question 33

Pupils are small bilaterally and irregular with

Answer 33

Light-near dissociation (Argyll-Robertson Pupil)

Question 34

Pupils constrict to accommodation,but are not reactive to light

Answer 34

Argyll-Robertson Pupil

Question 35

The Argyll-Robertson pupil is associated with

Answer 35

Syphilis and diabetes

Question 36

Caused by midbrain lesions affecting light reflex pathway

Answer 36

Argyll-Robertson Pupil

Question 37

Often, pupil changes will be the first symptoms of CN III lesions due to

Answer 37

Aneurysms

Question 38

An Uncal hernia (transtentorial herniation) causes a clinical triad of “blown” pupil, hemiplegia, and coma. The three signs are

Answer 38

Ipsilateral CN III signs, Hemiplegia (cerebral peduncles), and decreased consciousness or coma (Reticular formation)

Question 39

Innervates the superior oblique muscle

Answer 39

Trochlear nerve (IV)

Question 40

The primary action is intorsion, but also depresses (in adducted position) and abducts

Answer 40

Superior oblique

Question 41

Innervates the lateral rectus muscle

Answer 41

Abducens Nerve (VI)

Question 42

Lesion to the abducens nerve causes

Answer 42

Paralysis of lateral rectus and esotropia

Question 43

Can occur with increased intracranial pressure, because brainstem is pushed downwards

Answer 43

Abducens nerve lesion

Question 44

Can be used to determine the cause of diplopia

Answer 44

Red glass test

Question 45

Most pronounced in the direction that the eye cannot move

Answer 45

Diplopia

Question 46

There are 6 systemsto control eye movements to place an image on thefovea, and enable it to stay there. It is part

Answer 46

Voluntary and part reflexive

Question 47

People with disorders of the visual fixation system have poor

Answer 47

Vision

Question 48

Used to point the eyes to an object

Answer 48

Saccadic System

Question 49

Extremely fast movements that are initiated in response to visual targets, tactile stimuli, verbal commands, remembered locations

Answer 49

Saccades

Question 50

Holds a MOVING image on the fovea, Maximum velocity of 100°/s, and Requires moving target

Answer 50

Smooth-[usuit eye movement (SPEM) system

Question 51

Act together when a target moves

Answer 51

Saccades and SPEMs

Question 52

The vestibulo-ocular reflexes that hold images still on the retina during brief head movements are elicited by

Answer 52

Vestibular inputs

Question 53

Optokinetic movements that hold images still on the retina during translation or sustained rotation are elicited by

Answer 53

Visual field movements

Question 54

Saccades are produced by bursts of activity called

Answer 54

Saccadic Pulse

Question 55

Coordinates eye movements from CNs III, IV, and VI

Answer 55

Medial Longitudinal Fasciculus (MLF)

Question 56

The descending part of the MLF is the medial vestibulospinal tract for

Answer 56

Head position

Question 57

What are the three brianstem gaze centers

Answer 57

Horizol, vertical, and vergence gaze centers

Question 58

Located next to the nucleus of VI. Controls left and right gaze

Answer 58

Paramedian Pontine Reticular Formation (PPRF) Horizontal Gaze Center

Question 59

PPRF —> VI lower motor neurons and interneurons. Interneurons project to CN III neurons to innervate the

Answer 59

Contralateral medial rectus

Question 60

Used for voluntary movements to the contralateral side

Answer 60

Frontal Eye Fields (FEF)

Question 61

The FEF projects directly to the

Answer 61

1. ) Contralateral PPRF

2. ) Superior Colliculus

Question 62

Causes transient loss of horizontal gaze to contralateral side

Answer 62

FEF lesion

Question 63

Longer lasting deficits in horizontal gaze to the ipsilateral side

Answer 63

PPRF lesion

Question 64

Transient deficit in accuracy, frequency, and velocity of saccades

Answer 64

Superior Colliculus Lesion

Question 65

We see a permanent loss of reflexive saccades with

Answer 65

Superior Colliculus Lesions

Question 66

Directs movements into the visual space

Answer 66

Superior Colliculus

Question 67

In cortical lesions involving the FEF and UMNs, eyes point

Answer 67

Towards the lesion

Question 68

In Brainstem lesions involving the PPRF and UMNs, the eyes point

Answer 68

Away from the lesion

Question 69

Caused by increased pressure on the dorsal, rostral mid-brain, including posterior commissure

Answer 69

Parinaud’s Syndrome

Question 70

Ventral regions of the brainstem controls

Answer 70

Downgaze

Question 71

Dorsal regions of the brainstem control

Answer 71

Upgaze

Question 72

Presents with paralysis of upward gaze, large irregular pupils, and loss of convergence

Answer 72

Parinaud’s syndrome

Question 73

When horizontal eye movement is lost

• Caused by pontine lesion
• Vertical eye movements canbe spared

Answer 73

Locked-in syndrome

Question 74

When midbrain atrophy affects vertical eye movements

Answer 74

Supranuclear palsy

Question 75

What are the two stabilizing reflexes?

Answer 75

1. ) Vestibulo-ocular reflex (VOR)

2. ) Oculocephalic reflex

Question 76

A system for gaze stabilization: detects head movements through the vestibular system (heel striking the ground, head turning), and generates eye movements in the opposite direction to stabilize the eyes (prevent image “slippage”.

-For brief movements.

Answer 76

Vestibulo-ocular reflex

Question 77

Abnormal VOR can be caused by

Answer 77

Vestibular diseae, CNVIII disease, or cerebellar lesions

Question 78

The inability to see clearly while walking/driving is characteristic of

Answer 78

VOR abnormality

Question 79

A sensation that the environment is moving

-Common with VOR lesion

Answer 79

Oscillopsia

Question 80

We have the patient focus on a distant object and move the head 5-10 degrees. The eyes should stay stable if

Answer 80

VOR is intact

Question 81

Patient stares at their own hand with outstretched arm in front of their face, while being turned. They should be able to suppress

Answer 81

VOR

Question 82

An unsuppressed VOR means there is a lesion in the

Answer 82

Cerebellum flocculonodular lobe or posterior vermis

Question 83

(“doll’s eye”) tests integrity of brainstem. Vestibular input cause eyes to move in opposite direction

Answer 83

Oculocephalic reflex

Question 84

Impaired oculocephalic reflex indicates

Answer 84

Brainstem dysfunciton

Question 85

Response to retinal slippage of an image, such as when we are moving

• Keeps eyes focusedon an image
• Works with the VOR

Answer 85

Optokinetic response

Question 86

Tests the visual pathways, cortex, cerebellum, and brainstem centers for horzontal gaze

Answer 86

Optokinetic response

Question 87

The pathway is through the vestibular nuclei, which receives projections from the visual system.

-This is why sometimes you feel like you are moving when the visual field moves

Answer 87

Optokinetic response