Mansoura University, Faculty of Medicine Strabismus Lecture Notes PDF

Summary

These lecture notes from Mansoura University's medical faculty cover strabismus, including its types, diagnosis, and management. The document also includes learning outcomes and accompanying diagrams of eye structures and their functions.

Full Transcript

Mansoura University,
Faculty of Medicine
Mansoura – Manchester
Programme for Medical Education
 Prof. Manal Kasem
Prof. Ophthalmology
MOC; Mansoura University
Name of instructor
Contact information:
e-mail: [email protected]
Mobile: 01006264016
Academic hours:
 Important Note
The information included in this presentation are not the only
source for this topic and you should explore other valuable
references in order to satisfy the ILOs of this topic.
Content of lecture
Def.of strabismus
Types of strabismus
Diagnosis of a case of strabismus
Management a case of strabismus
Def. of amblyopia
Types of amblyopia
treatment of amblyopia
quizzes
Learning outcomes
At the end of this lecture, the student should be able to:.to know different types of strabismus.to know Broad lines of management a case of strabismus.to define amblyopia.to know management of amblyopia.answer the quiezzes
 By

Prof. Manal Kasem
Prof. Ophthalmology
MOC
Mansoura University
Definitions
Optic axis: A line joining the center of the cornea, lens and retina.

Visual axis: A line between the macula and the object of regard.

Muscle axis: A line between the origin and the insertion of the
muscle.
Optic axis
Muscle axis
Orthophoria :
It is a perfect equilibrium of oculomotor apparatus No latent strabismus or
manifest Strabismus.

Orthotroria :
It is an equilibrium of oculomotor apparatus (No manifest strabismus) but may
be thereis alatent strabismus.

Strabismus: It is the condition in which the visual axes of both eyes are not
directed to the same object of regard.
 Orthotropia

Esotropia Exotropia

Hypertropia Hypotropia
 Extraocular muscles (6 muscles)
Four recti: superior, inferior, medial and lateral rectus
Two obliques: superior and inferior oblique
Insertion of extra-ocular muscles
Nerve Supply (3 cranial nerves)

3rd , 4th , and 6th

Oclumotor, Trochlear , and abducent
S.R.
I.R.
III cranial nerve
M.R
I.O

L.R. 6th cranial nerve

S.O. 4th cranial nerve
All EOM supplied by III (Oclumotor)
Except
S.O (4th) and L.R (6th).
Actions of extra ocular muscles

X-Y-Z axes
 Actions of extra ocular muscles
Horizontally acting muscles:

Medial rectus Adduction.

Lateral rectus Abduction.
Vertically acting muscles

Superior rectus

 Elevation.
 Adduction.
 Intortion..

Superior rectus
Superior rectus

(A) Primary
(B)Abduction (C) Adduction
Position

Elevation Elevation Intorsion
Incyclotorsion Adduction
Adduction Mean elevator in abduction Elevation
 Vertically acting muscles

Inferior rectus

 Depression
 Adduction
 Extortion
 Inferior rectus

(A) Primary
(B)Abduction (C) Adduction
Position
Extorsion
Depression Depression Adduction
Extorsion Mean Depressor
in abduction
Depression
Adduction
 Oblique muscles
Superior Oblique muscle

 Intorsion
 Depression
 Abduction
Superior oblique muscle also is unique
Superior Oblique muscles

(A) Primary
(B)Adduction (C) Abduction
Position

Depression
Intorsion
(Mean depressor in Intorsion
Depression
adduction) Depression
Abduction (reading position)
We use this action in our daily lives
Inferior Oblique muscle

 Extortion
 Elevation
 Abduction
(A) Primary
(B)Adduction (C) Abduction
Position

Elevation
Abduction
Extorsion
Extorsion Extorsion
Elevation
(Mean elevator in Elevation
Abduction
adduction)
 Eye movements
A. Ductions
 Monocular movements
adduction, abduction, elevation, depression intorsion and extorsion.

B. Versions
 Binocular movements: the two eyes move synchronously and
symmetrically in the same direction.

C.Vergence
 Binocular eye movements.
Convergence (both eyes move inwards to look at a near object)
Divergence (both eyes move outwards to look at a far object).
 Version movements Binocular movements.

Dextrocycloversion Elevation
Laevocycloversion

Dextroversion Laevoversion

Depression
 Vergence movements

 Convergence.
 Divergence

Types of convergence.
Tonic convergence.
Accommodative convergence.
Diagnostic 9 positions of gaze
 Binocular single Vision

It is the ability of the brain to see
one image of one object by using
two eyes

Pre – requisites
 Identical retinal images
 Normal retinal correspondence
 Intact fusion center and visual pathways
 Binocular single vision
Prerequistes :
 The image from both retinae:
Should be nearly identical (size, shape, clarity, brightness etc.) i.e. no marked
anisometropia.

 Extraocular muscles:
Normal retinal corresponding. This fine adjustment requires good extraocular
muscle function.

 Normal visual pathway and C.N.S.: Normal fusion centre.
Grades of binocular single vision:

Grade I (Simultaneous perception)

Grade II: (Fusion)

Grade III (Stereopsis)

Synoptophore
Double vision

Binocular Diplopia
Double vision
 Adaptive phenomena to double vision

A) Sensory adaptation
1-Suppression
2- Abnormal retinal correspondence
3- Eccentric fixation

B) Motor adaptation
1-Latent squint

2-Blind spot syndrome

3-Abnormal head posture
 1. Suppression + amblyopia
 Mainly in children
 an active inhibition of vision in the squinting eye by visual cortex.
 A temporary phenomenon occurring only when both eyes are
open, if the fixing eye is covered, the suppression stops
immediately and the squinting eye takes up fixation.
 Prolonged suppression of squint eye Strabismic ambylopia
2. Abnormal retinal correspondance (ARC)

The fovea of the normal eye and an extrafoveal point
(which is normally non corresponding) of the squinting
eye will develop a common visual direction.
3. Eccentric fixation:

The extrafoveal point in squinting eye is
maintained to be the fixation point even when
the normal eye is covered
B) Motor adaptation
1-Latent squint

2-Blind spot syndrome

3-Abnormal head posture
Components of Abnormal head posture
According to the paralyzed muscle.

i. Face turn in a case of horizontal recti paralysis.

ii. Chin elevation or depression in a case of vertical recti paralysis.

iii. Head tilt in a case of oblique muscle paralysis.
Strabismus Classification

Apparent strabismus (pseudostrabismus) ‫كاذب‬
Latent strabismus (heterophoria) ‫خفى‬
Manifest strabismus (heterotropia): ‫حقيقى‬
 Paralytic
 Comitant
 Strabismus

Apparent True

Manifest Latent

Paralytic Concomitant

3rd ,4th ,and 6th Convergent Divergent
Apparent
Etiology
1. Apparent convergent squint:

Epicanthus
Small interpupillary distance.
Pseudoesotropia
2. Apparent divergent squint:

 Large interpupillary distance (large angle α).

Pseudoexotropia
Diagnosis:

Corneal light reflex test: normally centered.
Cover test: no movement occurs.
 It is tendency of the eye to deviate.

Etiology:
1. Uncorrected errors of refraction:
Hypermetropia
Myopia
2. Congenital weakness of one or more of extraocular muscles.
Types:
Esophoria, exophoria, hyperphoria, hypophoria.
Clinical picture:
 Muscular asthenopia: eye strain, headache and lacrimation.
 Occasional diplopia: running letters during reading.
 Patient or his parents may complain that the child's eye deviates when
tired or not concentrating.
 Cover test.
 Maddox rod test.
 Maddox wing test.
 Diagnosis By Maddox rod test
 Exophoria Esophoria

Possible results of Maddox rod test
Treatment:
Compensated cases with no symptoms  no treatment.
Correction of error of refraction
Surgery: indicated when symptoms are not relieved by
glasses.
A. Paralytic strabismus
Definition: Deviation of the eye due to paralysis of one or more of the
extraocular muscles.

Etiology: lower motor neurone lesion (LMNL).
1. Nuclear lesions
2. Nerve lesions
3. Muscle lesions
 Paralytic Strabismus

Symptoms
1- Diplopia
2- Limitation of movement
3- Vertigo, nausea
4- Compensatory head posture
Signs
1. Ocular deviation:
 Paralyzed muscle loses its tone.
 The antagonist draws the eye towards it (i.e. the eye
deviates to the opposite direction of the paralyzed muscle).

2. Limitation of movement of the eye in direction of action of
the paralyzed muscle.
3. Angle of deviation: variable in different directions of
gaze and also changes depending on which eye is fixing:
Variable angle in different direction of gaze
 Primary angle of deviation: Angle when the patient is fixing with the
normal eye.

 Secondary angle of deviation: The angle when the patient is trying to fix
with the squinting eye (normal eye is covered).

 Secondary > Primary due to excessive impulses sent by the brain to the
paralyzed muscle to contract. The same excessive impulses also reach the
normal yoke muscle in the other eye producing a larger deviation.
Primary deviation Secondary
deviation
4. Binocular diplopia: it is maximum when the patient looks at an object
situated in the direction of action of the paralyzed muscle and decreases
in the opposite direction.

5. False projection: wrong estimation of the sites of objects.
6. Compensatory head posture: abnormal head position adopted to avoid
diplopia.
The head is turned in direction of action of paralyzed muscle.

Face turn

Compensatory head Compensatory chin elevationand
head tilt
tilt
 Examples

 3rd nerve palsy.
 4th nerve palsy.
 6th nerve palsy.
Third nerve palsy:

 Ptosis.
 Deviation of the eye down (superior oblique) and out (lateral
rectus).
 Limitation of movement in the direction of action of the
involved muscles.
 No diplopia (ptosis).
 Dilatation of the pupil, paralysis of accommodation.
Fourth nerve palsy:
If the leftt superior oblique is affected, the clinical picture will be.

1. Deviation: the eye is deviated upwards and slightly inwards
with extortion.
2. Limited depression in adduction (much discomfort on going
downstairs).
3. Binocular diplopia on looking down and in.
4. Abnormal head posture: chin depression with head tilt to
opposite side.
Sixth nerve palsy (lateral rectus palsy):

If the right lateral rectus is affected, the clinical picture will be:-

Esotropia of the right eye.
Limitation of movement when the patient moves his eye to the right.
The angle of deviation is large when the patient looks to the right side.
The angle of squint is large when the right eye is fixing.
Diplopia most marked when the patient looks to the right.
Face turn to the right.
Combination of muscle palsy:-
 Ophthalmoplegia = ocular muscle palsy.
 External ophthalmoplegia = paralysis of extraocular muscles.
 Total ophthalmoplegia = paralysis of extraocular and
intraocular muscles.
 Superior orbital fissure syndrome = paralysis of 3,4,6 +
ophthalmic nerve ( anaesthesia).
 Orbital apex syndrome = paralysis of 3,4,6 + ophthalmic +
optic nerve (optic atrophy).
Treatment:
 Treatment of the cause.
 Surgery: wait for 6 months before surgery for spontaneous nerve
regeneration then reassess ocular motility:

a. Strengthen the weak paretic muscle by resection and weaken the
direct antagonist by recession.

b. With transposition of healthy non-paralyzed muscles..
B. Concomitant strabismus
It is manifest squint in which the visual axes of the 2 eyes are not directed to
the same object and they maintain their abnormal relation in all directions of
gaze.
 Concomitant strabismus
Etiology: obstacles that interfere with the development of binocular
single vision.
1. Refractive causes (uncorrected errors of refraction)

Hypermetropia Myopia
 2. Non-refractive causes:

Congenital Sensory
 Sequelae of concomitant squint
(sensory adaptation)
1. Suppression: the brain neglects the image of the squinting eye
2. Amblyopia: visual acuity in the suppressed eye starts to deteriorate
permanently.
3. Eccentric fixation: occurs in some cases of amblyopia when the
patient uses a parafoveal area for fixation (pseudo macula).
 1- Infantile congenital esotropia
Presentation: within the first 6 months of life
Examination reveals:
i. Angle of deviation is usually large.
ii. Fixation is usually alternating.
iii. Refractive error is normal for the age of the child (not
excessively hypermetropic).
Management:
i. Refractive errors and amblyopia treated first.
ii. Eyes are aligned surgically, usually at the age of 12 months.
Congenital esotropia

Post surgery
2- Refractive (accommodative) esotropia
It is associated with activation of the accommodative reflex in response to
excessive hypermetropia.

 At age 2-3 yrs.
 Variable angle increasing at near.
 High hypermetropia.
Fully Accommodative esotropia
Management of accommodative esotropia

Glasses Amblyopia Surgery
therapy
Types of surgery:
1. Weakening procedures = recession.
2. Strengthening procedures = resection.
3. Muscle transposition.
Hummelsheim Jensen procedure
Tests of importance:
Cover uncover

Cover tests
Alternate cover
Following movement
Ocular movements
Corneal reflection test
Order movement

Worths 4 dots
Maddox rod test
Synoptophore
 Evaluation of a case of strabismus

1- History
1- Age of onset.
2- Type of onset (sudden ,gradual)
3- Family history
3- Variability
5- Intermittent or constant
6- Diplopia
2-Unilateral or alternating

1.Cover test.

2.Visual acuity.
Cover tests
Alternating
Alternating
 3 -Concomitant or paralytic

1. Ocular motility
2. Angle of deviation (1ry and 2ry angle of deviation)
Concomitant

Paralytic
3-Convergent or divergent
Corneal reflection test
Convergent
1. Accommodative
2. Non accommodative ( tonic)

Refraction
 Accomodative type Tonic type
Age of onset > 2 years At birth

Error of refraction Hypermetropia No error

Angle of squint Usually small Large

Binocular function Good Bad

Amblyopia Rare Common

Nystagmus Rare Common

1-Glasses: leads to: Surgery
Treatment
a-complete relief.or
b-partial relief:
= surgery.
2-surgery(curative).
Convergent

Accommodative
Convergent

Non accommodative
NB

Divergent squint

Primary divergent squint is of good binocular function& treated
surgically.
4-Primary or secondary (ocular pathology or amblyopia)

Full ocular examination

Lt. Leucocorea
 Other classification of concomitant squint
1. Primary.

2. Secondary
to obstacle in visual axis:
a. Cataract.
b. Central corneal scar.
c. Macular scar.
d. Retinoblastoma.

3. Consecutive: = Iatrogenic.
 5-Angle of deviation

Corneal reflection(Hirschberg test)
Corneal reflection test (Hirschberg test)
Corneal reflection test (Hirschberg test)
6-State of binocular single vision

Worth's 4 dot test
 Evaluation of a case of strabismus

Examples of diagnosis

A - Alternating conc. Convergent primary squint angle 25 acc.
B – Right conc. Convergent primary squint angle 25 acc.
C – Right conc. Convergent primary squint angle 25 non acc.
D – Alter. conc. Convergent primary squint angle 25 non acc.
 Management of a case of strabismus

Purpose :

 To improve visual acuity.
 To improve binocular vision.
 To improve cosmetic appearance.
 Management of a case of strabismus

1-Optical :
To improve visual acuity by :
Glasses.
Contact lens.
Refractive surgery.
 Management of a case of strabismus

2- Occlusion if there is amblyopia:
(amblyopioa)
To improve visual acuity by :
Occlusion of sound eye.
One week for every year.
Bandage ,frosted glass , penalization.
 Management of a case of strabismus

3- Orthoptics :
To improve binocular single vision by :

Synoptophore.
 Management of a case of strabismus

4-Surgical :
To improve alignment by :

Weakening of a strong muscle.
Strengthen of a weak muscle.
 Amblyopia
Amblyopia is impaired vision in the absence of organic disease. It is most likely the
result of lack of continuous use of one fovea for vision.

Types:
1. Strabismic amblyopia.
2. Anisometropic amblyopia.
3. Visual deprivation amblyopia (amblyopia ex anopsia).
4. Toxic amblyopia.
5. Nystagmic amblyopia.
Treatment:
 Treatment is based on forcing the patient to use the amblyopic eye for vision,
after removing the cause.

 Occlusion (patching) of the preferred eye ( sound ) is carried out. It is
important to diagnose amblyopia as early as possible (before age 9 years)
 Full time or part time occlusion
Occlude the normal eye either continuous or intermittent.

 Types of occluder
Patch, atropine, semitransparent glass or by powerful
convex lens.

Duration
For 1 week/ year old.
Quizzes
1-Which of the following muscles depress the eye in adducted
position?

A)Superior rectus.
B)Inferior rectus.
C)Medial rectus.
D)Superior oblique.
E) Inferior oblique.
1-Which of the following muscles depress the eye in adducted
position?

A)Superior rectus.
B)Inferior rectus.
C)Medial rectus.
D)Superior oblique.
E)Inferior oblique.
2-Which of the following muscles elevates the eye in abducted
position?

A)Superior rectus.
B)Inferior rectus.
C)Medial rectus.
D)Superior oblique.
E)Inferior oblique.
2-Which of the following muscles elevates the eye in abducted
position?

A)Superior rectus.
B)Inferior rectus.
C)Medial rectus.
D)Superior oblique.
E)Inferior oblique.
3- Which of the following is a cause of
binocular diplopia?

A)Subluxation of the lens.
B)Iridodialysis.
C)Dislocation of the lens.
D)Iridoscheisis.
E)Symblepharon.
3- Which of the following is a cause of
binocular diplopia?

A)Subluxation of the lens.
B)Iridodialysis.
C)Dislocation of the lens.
D)Iridoscheisis.
E)Symblepharon.
4.Which of the following conditions is
presented with abnormal head posture?

A) Latent squint
B) Paralytic squint
C) Convergent concomitant squint
D) Pseudo squint
E) Divergent concomittant squint
4.Which of the following conditions is
presented with abnormal head posture?

A) Latent squint
B) Paralytic squint
C) Convergent concomitant squint
D) Pseudo squint
E) Divergent concomittant squint
5. A 3 year old child has convergent squint for one year. What
is the first step of management ?

A)Proper refraction
B)Surgical correction
C)Training on the synoptophore
D)Prism prescription
E)Examination with Hes screen
5. A 3 year old child has convergent squint for one year. What
is the first step of management ?

A)Proper refraction
B)Surgical correction
C)Training on the synoptophore
D)Prism prescription
E)Examination with Hes screen
Case Scenario

CASE 1
 A four year old child is brought to clinic
by his mother who has noticed a 'turn' in
the right eye.
 The strabismus is of recent onset and there is a family
history. Aided visual acuity is 6/36 right, 6/6 left. The right
eye slowly takes up fixation when the left eye is covered. The
retina is easily seen and is normal. Refraction shows that
both eyes are hypermetropic, the right more than the left.
Q1: Describe the position of the right eye.
Q2: What is the term used to describe the vision
in the right eye?
Can it be reversed in this patient?
Q3: Give one indication of surgery in
that child.
CASE 2
A nine months-old child was referred from her pediatrician for crossed eyes.
Birth history was normal. Physical health is good. Both right and left eye cross
inwards.
On Examination, there is normal fixation and following behavior. Child can
alternate between right and left eye. Refraction reveals emmetropia. Cover
test shows movement of each eye. No amblyopia is detected.
A) What is your diagnosis?
B) When to treat this condition?
C) What is the main line of treatment of this
condition ?