Posterior polar cataract
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Transcript of Posterior polar cataract
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POSTERIOR POLAR CATARACT
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GENERAL FEATURES• Congenital cataract• Dominantly inherited disorder with variable
expressivity; can be sporadic• Positive family history in 40–55%• Bilateral (65–80% )• No sex predilection• Incidence: 3 to 5 in 1000*
*Lee MW, Lee YC. Phacoemulsification of posterior polar cataracts—a surgical challenge. Br J Ophthalmol. 2003;87:1426–1427 Masket S. Consultation section: Cataract surgical problem. J Cataract Refract Surg. 1997;23:819–824 Vogt G, Horvath-Puho E, Czeizel E. A population-based case-control study of isolated congenital cataract. Orv Hetil.2006;147(23):1077–1084
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WHY IS IT IMPORTANT ?
• Strong adherence of the opacity to the weak posterior capsule
• 26% likelihood for a defective posterior capsule*
• high rate of intraoperative PC defect (0-40%)*
*Osher RH, Yu BC, Koch DD. Posterior polar cataracts: a predisposition to intraoperative posterior capsular rupture. J Cataract Refract Surg. 1990;16(2):157-162.
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PATHOGENESIS
• Caused by persistence of the hyaloid artery
• Invasion of the lens by mesoblastic tissue
• Forms during embryonic life or early in infancy ; symptomatic 30–50 years later
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HISTOLOGY
• Dysplastic lens fibers• During migration posteriorly from the lens
equator lens fibres exhibit :– progressive opacity, – increased degenerative changes, – characteristic discoid posterior polar plaque-like
cataract – accumulation of extracellular material
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HISTOLOGY
• Extreme thinness and fragility of the posterior capsule (or perhaps even absent)
• Adherence of the opacity to the capsule
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CLINICAL TYPES• Can be stationary (65%) as well as progressive
(35%)• Stationary-type– well-circumscribed circular opacity localized on
the central posterior capsule– concentric thickened rings around the central
plaque opacity (Bull’s-eye, onion peel)– smaller satellite rosette lesion adjacent to the
central opacity
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CLINICAL TYPES
• Progressive type– whitish opacification in the posterior cortex
(radiating rider opacity)– feathery and scalloped edges – do not involve the nucleus – does not extend as far anteriorly as the original
opacity
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SYMPTOMS
• Forward light scattering (light scattering toward the retina)– increasing glare, – difficulty in reading fine prints
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EXAMINATION• Dense, circular plaque in the central posterior
part of the lens (bull’s-eye; onion peel appearance)
• Can be surrounded by vacuoles and smaller areas of degenerated lens material
• Anterior vitreous may reveal oil-like droplets or particles
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ASSOCIATIONS
• Ocular associations – microphthalmia, – microcornea, – anterior polar cataract,
• Systemic associations– psychosomatic disorders – ectodermal dysplasia, – scleroderma, – incontinentia pigmenti, – congenital dyskeratosis,– congenital ichthyosis, – congenital atrophy of
the skin
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CLASSIFICATION
• Daljit Singh– Type 1: the posterior polar opacity is associated with
posterior subcapsular cataract.– Type 2: sharply defined round or oval opacity with ringed
appearance like an onion with or without grayish spots at the edge.
– Type 3: sharply defined round or oval white opacity with dense white spots at the edge often associated with thin or absent posterior capsule.
– Type 4: Combination of the above 3 types with nuclear sclerosis
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CLASSIFICATION
Schroeder– Grade 1: a small opacity without any effect on the
optical quality of the clear part of the lens.– Grade 2: a two-thirds obstruction of red reflex without
other effect.– Grade 3: the disc-like opacity in the posterior capsule is
surrounded by an area of further optical distortion. Only the dilated pupil shows a clear red reflex surrounding this zone.
– Grade 4: the opacity is totally occlusive; no sufficient red reflex is obtained by dilation of the pupil.
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• grade 1 : patching • grade 2: patching with mydriasis and bifocal
glasses• grades 3 and 4 : patched with early surgical
intervention as soon as possible
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PREOPERATIVE COUNSELLING
• possibility of the nucleus dropping intraoperatively due to a posterior capsular rupture
• relatively long operative time• secondary posterior segment intervention• delayed visual recovery• preexisting amblyopia, especially in cases of
unilateral posterior polar cataract
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CHOOSING THE SURGICAL TECHNIQUE
• Higher rates of complications with ECCE*• ECCE in harder cataract and dense central plaques• Posterior capsular rupture :– during emulsification of the nucleus in
phacoemulsification– during nucleus expression in ECCE– Vasavada and Singh: during epinucleus removal in
phacoemulsification– Osher et al: during removal of the posterior polar opacity
or during cleaning of the posterior capsule after plaque removal
*Das S, Khanna R, Mohiuddin SM, Ramamurthy B. Surgical and visual outcomes for posterior polar cataract. Br J Ophthalmol.2008;92(11):1476–1478
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PHACOEMULSIFICATION
• Starting with the side port incision followed by the injection of viscoelastic material might be better than staring with the main incision.
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PHACOEMULSIFICATION
• Bimanual microphacoemulsification, 1.4mm technique*; 45–50mL/min flow– Advantages:• (1) allowing withdrawal of the phaco-needle first while
maintaining the anterior chamber with infusion from the separate irrigating chopper, • (2) easing injection of viscoelastic into the anterior
chamber before final withdrawal of the irrigating chopper.
*Haripriya A, Aravind S, Vadi K, Natchiar G. Bimanual microphaco for posterior polar cataracts. J Cataract Refract Surg.2006;32(6):914–917
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CAPSULORHEXIS• High density viscoelastics to prevent anteior
chamber shallowing• Start the rhexis by pinching the capsule rather than
pushing it down• Smaller rhexis if soft nucleus• Mod to large (>5mm) if harder nuclei– Prevents buildup of fluid inside the bag– If post capsule ruptures then nucleus can prolapse out
rather than falling in
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HYDRO PROCEDURES• Hydrodissection is considered a contraindication• Hydrodissection in multiple quadrants with tiny
amount of fluid without allowing the wave to transmit across the posterior capsule can be tried
• Hydrodelineation is mandatory • Avoid vigorous decompression of the capsular bag
after the delineation• Nuclear rotation is contraindicated
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HYDRO PROCEDURES
• Inside-out delineation– trench is first sculpted and a right-angled cannula
is used to subsequently direct fluid perpendicularly to the lens fibers in the desired plane through one wall of the trench
Vasavada AR, Raj SM. Inside-out delineation. J Cataract Refract Surg. 2004;30:1167–1169
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PHACOEMULSIFICATION
• Slow motion phacoemulsification with low parameters– power should be 60%, – bottle height 55–70cm, – aspiration rate 15–25mL/min, – vacuum 30–100mm Hg
• Very stable chamber and the reduced infusion drives less fluid around the lens
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NUCLEOTOMY TECHNIQUES• posterior capsule should be presumed to be
absent beneath the area of the posterior polar cataract
• avoid collapse of the anterior chamber• injection of a dispersive viscoelastic through the
side port incision before withdrawal of the phacoemulsification tip
• nuclear rotation and aggressive nuclear cracking techniques with wide separation of fragments should be avoided
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NUCLEOTOMY TECHNIQUES
• Lee and Lee– sculpted the nucleus in the shape of the Greek
letter lambda “λ technique”, – cracking along both arms and removing the distal
central piece. – The advantage of this is its gentleness in not
stretching the capsule while removing the quadrants, especially the first one.
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NUCLEOTOMY TECHNIQUES• Layer-by-layer phacoemulsification technique described
by Vajpayee et al– After hydrodelineation, the nucleus is sculpted and cracked
into halves gently which is then aspirated with low parameter. – Then epinucleus is aspirated layer after layer by automated
bimanual irrigation and aspiration cannula. – The penultimate layer was carefully aspirated leaving thin
layer of cortex adherent to the capsule. – The most posterior layer along with the plaque was then
viscodissected and aspirated using bimanual irrigation and aspiration cannula.
– It is important to remember to leave the central area attached until the last stage of cortical aspiration.
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CORTEX ASPIRATION• Low bottle height (15–25cc/min). • The usual pulling of the cortex should be
minimized as possible. • The aspiration tip should remain at the equatorial
angle in the periphery, and the surgeon should wait until suction increases and the cortex is aspirated.
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CORTEX ASPIRATION
• Better to pull the cortex tangentially rather than centrally to mobilize it.
• The posterior chamber can be filled with viscoelastic material and cortex removed using a “dry” (syringe stripping) technique.
• Avoid polishing.
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REMOVAL OF THE POSTERIOR POLAR OPACITY
• Leave the removal of the opacity till the last stage of cortical aspiration.
• Viscodissection and aspiration by the phaco tip or the irrigation aspiration tip.
• Fill the bag with viscoelastic material and dislodge the opacity with a hook then to grab it and get it out by a forceps.
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REMOVAL OF THE POSTERIOR POLAR OPACITY
• “Minimal residual aspiration” by Osher in which the foot pedal is depressed and released just as the irrigation aspiration tip contacts the posterior capsule. – The vacuum that is created by the elasticity of the
tubing will be enough to clean the capsule with minimal risking for tear.
• If cannot be peeled off even by viscodissection, the safest option is to leave the plaque untouched for later Nd-YAG laser capsulotomy.
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IN CASE OF THE PRESENCE OF A TEAR
• Viscoelastic material should be injected before withdrawal of the handpiece
• A dispersive rather than a cohesive viscoelastic.
• The tear should be converted to continuous curvilinear capsulorhexis to put the intraocular lens in the bag without risking an extension of the capsular tear.
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INTRAOCULAR LENS (IOL) IMPLANTATION
• If there is – no tear or – the size of the posterior capsular rupture is small or – it could be converted to a round one, Then IOL can be implanted in the bag.
• Avoid touching the capsule while inserting the IOL.• Safer to compress the trailing haptic rather than
subjecting the capsular bag to rotational forces that might extend the tear.
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INTRAOCULAR LENS (IOL) IMPLANTATION
• Mackool suggested the use of polymethyl methacrylate (PMMA) IOL – (foldable IOL that opens within the capsular bag might
stress the posterior capsule)• Tie the two haptics of the IOL by 10–0
polypropylene suture thus compressing them. Then after the insertion, cut and trim the ends.
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INTRAOCULAR LENS (IOL) IMPLANTATION
• In cases in which there is a big rupture with questionable zonular integrity, – safer to implant an anterior chamber IOL, – suturing an IOL to the sclera or the iris, – leave the patient aphakic for secondary IOL
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ECCE
• Incision should be wide enough• Nucleus delivery– By fluid pressure with an 18-gauge cannula
connected to the saline bottle. – Viscoexpression. Viscoelastic is injected between
the nucleus and the epinucleus to elevate the superior pole of the nucleus followed by extracting the nucleus with a lens loop
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POSTERIOR SEGMENT APPROACH • Large plaques (>4mm) • Ghosh and Kirkby*have done this technique in eight patients
where – 19-gauge winged metal infusion canula (‘butterfly’) as an infusion line
directly into the crystalline lens – and either the vitreous cutter or fragmatome or both (depending on
nuclear sclerosis) used to remove the lens. – In all cases some lens fragments were dislocated posteriorly that were
removed later by central vitrectomy. – In the middle of the procedure, if anterior capsular opacified, the
vitreous cutter in suction mode would be used to polish it from posteriorly with later central anterior capsulectomy by the vitreous cutter. Foldable sulcus intraocular lens is implanted.
*Kumar V, Ghosh B, Kaul U, Thakar M, Goel N. Posterior polar cataract surgery: a posterior segment approach. Eye (Lond).2009;23(9):1879
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RELATIONSHIP OF THE SIZE OF LENS OPACITY WITH THE SURGICAL OUTCOME
• posterior polar opacity 4mm or more, – the incidence of posterior capsule rupture was
30.43% (7/23) • less than 4mm size – the incidence was only 5.71% (2/35) – with statistically significant difference (p=0.039).
Kumar S, Ram J, Sukhija J, Severia S. Phacoemulsification in posterior polar cataract: does size of lens opacity affect surgical outcome?. Clin Experiment Ophthalmol. 2010;38(9):857–861