strabismus demystified

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STRABISMUS SIMPLIFIED INDOREDRISHTI.WORDPRESS.COM

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Page 1: Strabismus demystified

STRABISMUS SIMPLIFIED

INDOREDRISHTI.WORDPRESS.COM

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DR DINESH MITTAL DR SONALEE MITTAL

DRISHTI EYE HOSP VIJAYNAGAR INDORE

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A p p ere n t sq u in t(P se u d o-s q u in t)

L a ten t squ in t(H e tro -p h o ria )

C o m ita n t

P a ra ly tic /P a re s is R is tric t iv e S p a s tic

In co m ita n t

M a n ife st s q u in t(H e tro -tro p ia )

S q u in t

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•Phoria: a latent visual axis deviation held in check by fusion.

•Tropia: a manifest visual axis deviation.• Intermittent tropia: an intermittent visual axis deviation that exist only occasionally

•Ductions: monocular movements into various gaze positions

•Versions binocular movements in same direction•Vergences: binocular eye movements in opposite directions.

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PSEUDOSTRABISMUS RESULTS FROM FLAT NASAL BRIDGE , WIDE EPICANTHAL FOLDS AND SMALL IPD

ON COVERING LEFT EYE OR RT EYE THERE WILL NOT BE MOVEMENT OF OTHER EYE AND HENCE NO TROPIA

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PROMINENT EPICANTHAL FOLDS SIMULATING ESTROPIA

WIDE IPD SIMULATING EXOTROPIA

PSEUDOSTRABISMUS

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RIGHT ESOTROPIA

LEFT ESOTROPIA

RIGHT HYPERTROPIA

LEFT HYPERTROPIA

RIGHT HYPOTROPIA

RIGHT EXCYCLOTROPIA

LEFT HYPOTROPIA

RIGHT INCYCLOTROPIA

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When Test Marks come

Version Movements SIX CARDINAL

POSITIONS OF

GAZE

DEXTRO-ELEVATION

LEVO-ELEVATION

DEXTRO-DEPRESSION

LEVO-DEPRESSION

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COVER TEST•A cover is placed before the eye that appears to fixate while the patient looks at a small object, a figure pasted on a tongue depressor, or a 6/9 visual acuity symbol. The test should always be done for distance and near fixation to establish any differences between the two conditions. Covering one eye of a patient with normal binocular vision interrupts fusion.

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PT LEFT EYE EXAMINED FOR MOVEMENT AS THE RIGHT EYE COVERED

PT RT EYE EXAMINED FOR MOVEMENT AS THE LEFT EYE COVERED

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•If the patient has a heterotropia and the fixating eye is covered, the opposite eye, provided it is able to do so, will make a movement from the heterotropic position to take up fixation, and the covered eye will make a corresponding movement in accordance with Hering’s law.

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• EXOTROPIA is present when the eye taking up fixation moves toward the nose,

• ESOTROPIA when it moves toward the temple, and so forth.

• ORTHOTROPIA If there is no movement of the fellow eye

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COVER UNCOVER TESTWhen it has been established that no manifeststrabismus is present (no movement of the felloweye when either eye is covered), a cover-uncover Test will determine whether the patient has a latent deviation . Again, one and then the other eye is covered while the patient maintains fixation. However, the examiner now directs attention to the covered eye just as the cover is REMOVED

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COVER UNCOVER TESTIf patient has a heterophoria, Coveredeye will deviate in the direction of theheterophoric position. When the eye is uncovered, it will move in the opposite direction to reestablish binocular fixation, that is, toward the nose in exophoria, downward in hyperphoria, and so forth

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results of cover & cover uncover1. On covering seemingly fixating eye:• a. No movement of the other eye: there• was binocular fixation before applying• the cover.• b. Movement of redress of the other eye:a manifest deviation was present before applying the cover.

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. On uncovering the eye:

a. Movement of redress of the uncovered eye (fusional movement); no movement of other eye: heterophoria is present.• b. No movement of either eye; uncovered• eye deviated; opposite eye continues to• fixate: an alternating heterotropia is present.• c. Uncovered eye makes movement of redress• and assumes fixation; opposite eye• deviates; preference for fixation with one• eye: a unilateral heterotropia is present

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COVER / COVER UNCOVER RESULTS

• orthotropia or ocular deviation is present

•whether a deviation is latent or manifest,•the direction of a deviation, •the fixation behavior,•and even whether visual acuity is significantly decreased in one eye.

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NORMAL EYES

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ALTERNATE COVER TEST IN A ESOPHORIC PATIENT

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Alternating esotropia

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Alternating exotropia

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Left hypertropia

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Effect of prism over eye

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Prism neutralization in esotropia

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Hirschberg Corneal Reflex (HBCT)• 1mm shift = 7° or 15 *Uses 1st Purkinje Image

00ºº

1515ºº

4545ºº

2828ºº

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Force duction test

Force GENERATION test

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Confusion & diplopia

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Alternate convergent squint

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FULLY ACCOMMODATIVE ESOTROPIA

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PARTIALLY ACCOMMODATIVE ESOTROPIA

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IN INDIA EXOTROPIA IS MORE COMMON COMPARED TO ESOTROPIA

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RT EYE INFERIOR OBLIQUE OVERACTION AND OVERELEVATION IN ADDUCTION

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V PATTERN EXOTROPIA

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3 step test

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Left 4th nerve palsy

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DVD

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B/L INFERIOR OBLIQUE OVERACTION

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Type 1 duane retraction syndrome

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TYPE 2 DRS

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TYPE 3 DRS

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COMPLETE LEFT 3RD NERVE PALSY

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PARTIAL LEFT 3RD NERVE PALSY

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RT 6TH NERVE PALSY

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MUSCLE MEASUREMENTS• four rectus muscles are essentially same length (40 mm), although amount of tendon varies, with medial rectus having shortest tendon length (4 mm), & lateral rectus having longest tendon length (8 mm).

• Of all of the extraocular muscles, the superior oblique has the shortest muscle length (32 mm) and the longest tendon length (26 mm), whereas the inferior oblique has only a 1 mm tendon.

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SURGICAL ANATOMY

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LATERAL RECTUS

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• lateral rectus acts as a pure abductor. Of four rectus muscles, lateral rectus has longest arc of contact, making faden operation on this muscle ineffective. lateral rectus and inferior oblique muscles are joined by a ligament at the inferior oblique insertion. Because of this connecting ligament, large hang back and adjustable suture recessions of the lateral rectus do not work well.

• A slipped or lost lateral rectus muscle will retract and then stop at the inferior oblique insertion. A lost lateral rectus muscle usually can be retrieved by tracing the inferior oblique muscle to its insertion

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LATERAL RECTUS

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SUPERIOR RECTUS

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• The superior rectus muscle is primarily an elevator, but it also acts as an intortor and adductor in the primary position. The superior rectus is a pure elevator only when eye is abducted 23°. As with inferior rectus, there is a fascial attachment that connects superior rectus with upper eyelid elevators . Eyelid retraction can occur after large superior rectus recessions, usually those over 5 mm. Careful removal of fascial connections can minimize this complication.

• The dissection should extend approximately 10 mm posterior to the muscle insertion. Special care must be taken during superior rectus surgery to avoid shearing off the anterior portion of the superior oblique insertion when removing intermuscular septum

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SUPERIOR RECTUS

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MEDIAL RECTUSThe medial rectus muscle is easiest muscle to lose and the hardest to find once lost, because it is the only extraocular muscle without fascial attachments to an oblique muscle. The muscle penetrates Tenon’s capsule 12 mm posterior to its insertion and, if released, will retract posteriorly through the muscle sleeve, making retrieval extremely difficult.

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•The medial rectus muscle ( MR ) acts as a pure adductor. It has a “short” distinction, as it has the shortest arc of contact and is the shortest distance from the limbus. Because of the short arc of contact, the faden procedure is effective on the medial rectus muscle.

• Its insertion is closest to the limbus, so it is easy to inadvertently excise it from the globe during anterior segment procedures, such as pterygium removal.

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INFERIOR RECTUS• The inferior rectus muscle is primarily a depressor but, depending on the eye’s position, it can act as an adductor and extortor. These secondary actions occur because the muscle axis is 23° temporal to the visual axis when the eye is in the primary position.

• The inferior rectus muscle is a pure depressor only when the eye is abducted 23°from the primary position. Conversely, as the eye moves into adduction, inferior rectus increasingly functions as an extortor and adductor

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Inferior rectus

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INFERIOR OBLIQUE• The primary function of the inferior oblique muscle is extorsion. It is also an abductor and elevator. The field of action of the inferior oblique is superior nasal (elevation in adduction), and this is the position of gaze in which inferior oblique overaction is most noticeable. The inferior oblique muscle inserts directly over the macula, so inferior oblique surgery must be done with extreme caution to avoid scleral perforation and damage to the macula

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•The inferior temporal vortex vein is in close proximity to the inferior oblique muscle. The inferior oblique should be isolated on a hook under direct visualization to avoid disrupting the vortex vein. If the vortex vein is inadvertently damaged, cautery should not be used to stop the bleeding.

•The nerve innervating the inferior oblique enters the muscle 15 mm nasal to the insertion

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INFERIOR OBLIQUE

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SUPERIOR OBLIQUE•The superior oblique muscle is primarily an intortor, but it also acts as an abductor and depressor in the primary position.

•There are two distinct parts of the superior oblique tendon: the cord portion and the fan portion. The round or cord portion of the superior oblique tendon passes through the trochlea and fans out just nasal to the superior rectus muscle

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•When the eye looks up and in, the cord portion elongates and passes through the trochlea. Restriction of superior oblique tendon movement is the most probable cause of Brown’s syndrome. The fan portion of the tendon can be divided into the anterior one third and posterior two thirds. Anterior tendon fibers have intorsion function, whereas posterior tendon fibers are responsible for depression and abduction and, to a lesser degree, for intorsion.

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Superior oblique

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insertion of superior oblique is extremely broad. The anterior portion of this delicate fan-like insertion connects with the temporal insertion of the superior rectus muscle . These anterior fibers can be disrupted easily when isolating superior rectus from the temporal side. The broad posterior insertion extends to within 6.5 mm of the optic nerve. During superior oblique surgery and exploration, care must be taken to avoid inadvertent damage to the optic nerve .

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Insertion of superior oblique

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Binocular functionEstablish binocular fusion1. Early surgery infantile esotropia2. Partially accommodative esotropia3. Decompensated intermittent exotropiaBinocular diplopia1. Acquired incomitant strabismus (restriction or paresis)2. Acquired comitant strabismus3. Postoperative anomalous retinal correspondence

Strabismus surgery indications

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Binocular field1. Expand binocular visual field2. Correct face turn or head tilt (associated with nystagmus or incomitant strabismus)Cosmetic appearance1. Sensory strabismus (associated with unilateral poor vision or dense amblyopia)2. Long-standing infantile strabismus (late surgery for congenital esotropia)3. Lid fissure changes (Duane’s syndrome III co-contraction)

Strabismus surgery indications

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Strabismus surgery corrects ocular misalignment by slackening a muscle (i.e., recession),

by tightening a muscle (i.e., resection),

or by changing the insertion site of the muscle,thus changing the direction of pull or vector of force (i.e., transposition).

How strabismus surgery works

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each 0.5 mm of a bilateral medial rectus recession will correct approximately five prism diopters (PD) of esotropia, up to a recession of 5.5 mm. After 5.5 mm of recession, each additional 0.5 mm of recession results in 10 PD of correction. Clinically, this is important, as we must be extremely careful when measuring large recessions because relatively small errors in measurement will result in large errors in eye alignment. An inadvertent over-recession of only 1.0 mm on a planned 6.0- mm bilateral medial rectus recession could result in a 20 PD overcorrection.

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Monocular recession-resection surgery produces incomitance, which is not optimal in a fusing patient, as incomitance can cause diplopia in eccentric positions of gaze. Monocular surgery on the blind eye, however, is the procedure of choice for sensory strabismus, to protect the only seeing good eye. A unilateral or asymmetric recession, therefore, will induce incomitance, whereas bilateral symmetrical recessions will produce a comitant result

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A muscle resection consists of tightening a muscle by excising part of the muscle and reattaching the shortened muscle at its original insertion site. Resections are usually performed on rectus muscles, not the oblique muscles. Clinically, a resection produces incomitance as the tightened muscle restricts rotation away from the resected muscle

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Recession and ResectionThe effect of the recession and the resection is additive in regards to limiting eye rotation. The recession reduces rotational force towards the recessed muscle while the resection restricts rotation away from the resected muscle. Thus, the recession-resection procedure causes signifi cant incomitance.

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Recession and ResectionFor example, a recession of the left lateral rectus muscle and resection of the left medial rectus muscle to treat a comitant exotropia will correct the exotropia in primary position, but will create an esotropia in left gaze, because the left eye would have limitation of abduction compared with the normal adduction of the unoperated right eye.

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Recession and ResectionLimited rotations after an R&R procedure usually improve over several months to years, but some residual incomitance often persists. Given that the R & R procedure induces incomitance, it is best used to treat incomitant strabismus. Monocular R & R is also the procedure of choice for the treatment of sensory strabismus, so surgery is performed only on the blind eye.

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Faden means suture . faden procedure consists of a suture placed through a rectus muscle, securing muscle to posterior sclera, 12–14 mm posterior to muscle insertion. This procedure reduces rotational force by shortening the moment arm when the eye rotates toward themuscle with the faden. It has minimal effect in primary position, but progressively reduces the rotational force as the eye rotates towards the operated muscle. faden has a relativelyweak effect, It is most effective on Medial rectus.

FADEN OPERATION

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Transposition surgery is based on changing the location of the muscle insertion so the muscle pulls the eye in a direction different than the normal action of the muscle (i.e., it changes the vector of force). Transposition surgeries can be used to treat a rectus muscle paresis ,A and V patterns , small vertical tropias , and torsion .

Muscle Transposition

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A right lateral rectus palsy results in an esotropia with limited abduction. lack of lateral force can be treated by transposing all or part of superior rectus & inferior rectus muscles laterally to lateral rectus insertion . Because vertical muscles do not contract on abduction, the amount of abduction will depend on the elasticity of the transposed muscles, not on the active contraction of the muscles.

Muscle Transposition

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Vertical transposition of horizontal rectus muscle insertions can correct small vertical deviations . small right hypertropia can be corrected by infraplacement of right medial and lateral rectus muscles. Transposing the horizontal rectus muscles inferiorly towards inferior rectus muscle changes the function of the horizontal recti to act to pull the eye down, thus correcting hypertropia.

Muscle Transposition

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Intermittent Exotropia• Intermittent exotropia — is a large exophoria that intermittently breaks down to an exotropia. Occluding one eye breaks fusion and will manifest exotropia . When fusing, eyes are straight & stereo acuity is excellent, usually 40 s of arc.

• When tropic, there is large, hemiretinal suppression of deviated eye. It is common for patients to show a preference for one eye, but clinician should resist the temptation to label deviation as a right or left exotropia, as deviated eye can easily be changed by covering dominant eye.

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Intermittent Exotropia• Patients with late onset of exotropia during late childhood or adulthood may experience diplopia when tropic. The exotropia is typically manifest when the patient is fatigued, daydreaming, or ill. Approximately 80 % of intermittent exotropia patients will show progressive loss of fusion control and an increase in the exotropia over several months to years. Adult patients can have extremely large deviations.

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CLINICAL FEATURES IDS• Most common form of exotropia• Usually presents after 1 year of age• Large exophoria (usually 25–40 PD) that spontaneously becomes manifest

• High-grade stereo acuity when fusing 40 s• suppression when tropic• Squints one eye to bright light

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MEASURE THE DEVIATION IDS•Use prolonged prism alternate cover testing for far distance fixation 6 / 9 target and near fixating on an accommodative target, to measure the deviation. Prolonged cover testing helps to break down tonic fusion and reveal the full deviation.

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NONSURGICAL TREATMENT IDS• In general, nonsurgical treatment does not work very well for IDS patients:

• • Part-time monocular occlusion of dominant eye, 3–4 h a day. This form of antisuppression therapy works by stimulating the nonpreferred eye. In patients with equal ocular preference, alternate eye patching is indicated.

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NONSURGICAL TREATMENT IDS• Over minus: Prescribe −1.50 to −2.50 sph more than required by cycloplegic refraction. increased accommodative convergence may help to control IDS , but it is usually effective only for small deviations in myopic patients. Orthoptics: Convergence exercises (pencil push-ups or base out prisms) are treatment of choice for convergence insufficiency. Orthoptics are usually not helpful for correcting the distance exodeviation.

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Surgical Treatment IDS•The procedure of choice for all types of IDS is bilateral lateral rectus recessions. Symmetrical surgery is preferred over a

•monocular recession-resection procedure because the deviation is comitant, and bilateral surgery gives a comitant result.

• recession-resection procedure, on other hand, causes horizontal incomitance . inducing an esotropia and diplopia

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Surgical Treatment IDS•recession-resection procedure, on other hand, causes horizontal incomitance . inducing an esotropia and diplopia on gaze to the side of the recession–resection. The incomitance may partially dissipate over time, but adults often complain of persistent diplopia on side gaze.

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Surgical Treatment IDS•Small hyperphorias <5 PD are commonly associated with IDS . These small hyperphorias can be ignored if they are not associated with oblique dysfunction,

•as they disappear after correction of the exotropia with bilateral lateral rectus recessions.

• immediate postoperative goal is to achieve a small consecutive esodeviation (approximately 8–15 PD).

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Residual Exotropia• A residual exotropia is a common occurrence and usually• occurs late, several months to years after the initial surgery.• For a residual exotropia that occurs after lateral rectus

recessions of less than 6.0 mm, consider re-recessing both lateral rectus muscles (3.0 mm corrects about 20 PD).

• If the primary recessions were greater than 6.0 mm, consider bilateral medial rectus resections or plications. Be conservative about the amount of medial rectus tightening, as tightening against previously recessed lateral rectus muscles can cause a consecutive esotropia. Take 1.0–1.5 mm off the standard charts

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VERTICAL NUMBERS• A rule of thumb for vertical surgery is 3 prism diopters of vertical correction for every millimeter of recession. Inferior rectus recessions are notorious for late overcorrections; therefore, consider using nonabsorbable sutures or long-lasting absorbable sutures.

• Superior rectus recessions for dissociated vertical deviation (DVD) must be large, with minimum recession of approximately 5 mm and a maximum of 9 mm .

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A & V PATTERN

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THANK YOU

DR DINESHDR SONALEE