Cataract By Col Rana Intisarul Haq MCPS FCPS

Cataract By Col Rana Intisarul Haq MCPS, FCPS (AFIO)

Lens The lens is a biconvex structure located directly behind the posterior chamber and pupil It is the lesser of the two refractive elements in the dioptric system The equatorial diameter in adult is about 9 -10 mm The anteroposterior width of the lens is about 6 mm The lens has certain unusual features. It lacks innervation and is avascular.

Detail view of the anatomy of the eye

cataract Definition l Any congenital or acquired opacity in the lens capsule or substance of the lens , irrespective of the effects on vision is called cataract.

Classification of Cataract According to Age According to Morphology According to Etiology According to maturity Congenital and acquired

Age Related Senile Cataract Age related cataract is universal in persons over 70 years of age. Both sexes are involved equally. There is considerable genetic influence. Average of onset of cataract is approximately 10 years earlier in tropical countries. 6

Age Related Cataracts senile Presenile Cataracts Diabetes Mellitus Myotonic Dystrophy Atopic Dermatitis Neurofibromatosis-2 Traumatic Cataract Direct Penetrating Injury Concussion Electric Shock & Lightening Ionizing Radiation

Toxic Cataracts Steroids Chlorpromazine Miotics Busulphan Amiodarone Gold Secondary Cataracts Ch Ant Uveitis Ac Congestive Glaucoma High Myopia Hereditary Fundus Dystrophy

According to Morphology Posterior Subcapsular Cataract Ant Subcapsualr Cataract Nuclear Cataract Cortical Cataract Mature Cataract

THE LENS CATARACT F This diagram illustrates the different morphological characteristics of cataract together with their depth and location within the lens. The following illustrations demonstrate clinical examples of these anatomical entities.

CLASSIFICATION ON BASIS OF MATURITY IMMATURE CATARACT MATURE HYPERMATURE MORGAGNIAN

Causes Hereditary Age DM Steroids UV Rays Poor Nutrition Smoking

Epidemiology Cataract surgery is the most commonly performed surgery in elderly patient Any Age Two peaks <10 Years >65 Years

Pathology Depends on type of Cataract Early Changes – tiny areas of liquefaction called morgagnian degeneration seen as cortical spokes Progress to involve entire cortex Later on homogeneous appearance

Etiopathogenesis of Cataract Caused by degeneration and opacification of existing lens fibres, formation of aberrant fibres or deposition of other material in their place. Loss of transparency occurs because of abnormalities of lens protein and consequent disorganization of the lens fibres 15

Etiopathogenesis of Cataract Any factor that disturbs the critical intra and extra cellular equilibrium of water and electrolytes or deranges the colloid system within the fibres causing opacification. Fibrous metaplasia of lens fibres occurs in complicated cataract. Epithelial cell necrosis occurring in angle closure glaucoma leads to focal opacification of the lens epithelium (Glaucomflecken) 16

Etiopathogenesis of Cataract Abnormal products of metabolism, drugs or metals can be deposited in storage diseases (Febry), metabolic diseases (Wilson) and toxic reactions (Siderosis) 17

Nuclear Cataract

Mature Cataract

Hypermature Cataract

Traumatic Cataract(Penetrating Trauma)

Vossius Ring

PSC in Atopic Dermatitis

Congenital Cataract

Stellate PSC in Myotonic Dystrophy

Shield Anterior Subcapsular Cataract (Atopic Dermatitis)

PSC in Atopic Dermatitis

Progression of Steroidinduced Cataract

Anterior Subcapsular Opacities (Ch Ant Uveitis)

Adv Cataract & Posterior Synechiae (Ch Ant Uveitis)

Symptoms of Cataract 1. Blurring of vision 2. Frequent change of glasses due to rapid change in refractive index of the lens 3. Painless, progressive, gradual diminution of vision due to reduction in transparency of the lens 4. Second sight or myopic shift in case of nuclear cataract causing index myopia, improving near vision. 31

Symptoms of Cataract 5. Loss or marked diminution of vision in bright sunlight or bright light beam in central posterior sub-capsular cataract. 6. Monocular diplopia or polyopia in presence of cortical spoke opacities 7. Glare in posterior sub-capsular cortical cataract due to increased scattering of light 32

Symptoms of Cataract 8. Colored haloes around the light as seen in cortical cataract due to irregular refractive index in different parts of the lens. 9. Color shift , reds are accentuated 10. Visual field loss, generalized reduction in sensitivity due to loss of transparency 33

Signs of senile cataract Positive findings 1. Diminution of vision 2. Anterior chamber is shallow in cases of intumescent cataract and deep in cases of hypermature (shrunken) cataract 3. Tremulousness of iris in cases of hypermature shrunken cataract 34

Signs of senile cataract 4. Lenticular opacity , grey or white opacity in lens. Iris shadow in immature cataract. No iris shadow in mature cataract 5. Morgagnian Cataract- is characterized by liquefied cortex, which is milky and nucleus is seen as brown mass, seen as semicircular line, altering its position with change in position of head 35

Signs of senile cataract 6. Distant direct ophthalmoscopy will reveal black shadow against red background in cases of immature cataract. 36

Thank you

Management of Cataract

HISTORY Age of Onset Decreased Vision l l l Painless, effecting daily routine? If the patient is bothered about his decreased vision. Trauma Any Ophthalmological Problems Drugs Intake Exposure to Radiations Systemic Diseases l Skin disease, joint pains, etc. Family History

Examination GPE SYSTEMIC EXAMINATION OCULAR EXAMINATION VISUAL ACUITY l ADNEXA l CORNEA l ANTERIOR CHAMBER l PUPIL l VITROUS l RETINA l

Investigations Blood Glucose ECG Chest x-rays (PA view) Blood Complete Picture Any specific relevant investigation (if indicated)

Indication for Surgery Visual Improvement l When the patient is bothered. Medical Indications l When cataract is adversely affecting the health of the eye e. g. : Phacolytic Glaucoma l Intumescent Cataract l Diabetic Retinopathy l Cosmetic Indications l To restore black pupil

Optimal Post Op Refraction If monocular correction is reqd. e. g. in contralateral dense or amblyopia best post op refraction is -1 DS. If binocular correction is reqd difference between the two eyes should not be more than 3 DS.

SURGICAL TECHNIQUES ICCE ECCE with posterior chamber IOL implant Phacoemulcification

ECCE

IOL Implantation

Phacoemulcification

Operative Complications of Local Anaesthesia l Retrobulbar Hemorrhage l Perforation of the globe, optic nerve or sheath Operative Complications: l Bridle Suture Perforation of the globe l Stripping of Descemet’s Membrane l Damage to ciliary body

Operative Complications(Contd) Rupture of the Posterior Capsule l Capsular Rupture without Vitreous Loss Small Tear l Large Tear or Zonular Tear l l Capsular Rupture with Vitreous Loss l vitrectomy Posterior Loss of Lens Fragments Small Fragments l Large Fragments l

Nuclear Material in Vitreous

Operative Complications(Contd) Suprachoroidal Hemorrhage l Source l l long or short ciliary artery Contributing Factors sudden in IOP l coughing l Valsalva Manoeuvre l Vitreous Loss l Sudden rise in B. P. l Retrobulbar anaesthetic without adrenaline l

Operative Complications(Contd) Suprachoroidal Hemorrhage(Contd) l Presentation l l after lens delivery, progressive shallowing of anterior chamber, increased IOP & iris prolapse, vitreous extrusion, loss of red reflex. In severe cases all intraocular contents may be extruded Immediate Treatment Closure of the Incision l Administration of Hyperosmotic Agent l

Operative Complications(Contd) Suprachoroidal Hemorrhage(Contd) l Subsequent Treatment Topical & Systemic Steroids l Between 7 & 14 Day drainage of the blood, pars plana vitrectomy & air-fluid exchange l

Early Post-Operative Complications Iris Prolapse l Cause - inadequate suturing l Complications defective wound healing, ch ant uveitis, epithelial ingrowth, cystoid macular edema, excessive astigmatism. l Treatment

Early Post-Operative Complications Striate Keratopathy l Cause damage to corneal endothelium Hyphema

Early Post-Operative Complications Acute Bacterial Endophthalmitis l Pathogenesis l Causative Organisms l Staph Epidermidis, Staph Aureus, Pseudomonas sp etc Source of Infection l Prevention l l l Treatment of local infections of the Patients Preoperative instillation of Povidine-iodine Meticulous draping Technique Postoperative injection

Draping of Eyes

Early Post-Operative Complications Acute Bacterial Endophthalmitis(contd) l Clinical Features severity l Time Interval l l Staph Aureus - 1 st to 3 rd day Staph Epidermidis - 4 rth to 10 th day Differential Diagnosis l l l Retained Lens Matter Toxic Reaction Difficult or Prolonged surgery

Fibrinous Exudation in Severe Acute Endophthalmitis

Small Hypopyon

Acute Bacterial Endophthalmitis(contd) l Clinical Features Differential Diagnosis Retained Lens Matter Toxic Reaction Difficult or Prolonged surgery

Early Post-Operative Complications Acute Bacterial Endophthalmitis(contd) l Management l Identification of causative organism l aqueous samples l vitreous samples l Antibiotics l Vitrectomy l Steroids l Subsequent therapy

Late Post-Operative Complications Opacification of the Posterior Capsule l l Types l Elschnig’s Pearls l Capsular Fibrosis Indications for Treatment l Visual Acuity l Impaired Visualization of Fundus l Monocular Diplopia or severe glare Nd: YAG Laser Capsulotomy Complications

Elschnig Pearls

Fibrosis of Posterior Capsule

Technique of Nd: YAG Laser capsulotomy

Late Post-Operative Complications Malposition of IOL l l l Tilting Decentration Treatment Corneal Decompensation l l Causes Treatment

Late Post-Operative Complications Retinal Detachment l Risk Factors l l l Disruption of Posterior Capsule Vitreous Loss Lattice Degeneration Sunset Syndrome l l Cause Traetment

Late Post-Operative Complications Chronic Endophthalmitis l Causative Organism l l Propionibacterium Acnes Staph Epidermidis Clinical Features Treatment Strategy l l steroids & antibiotics Removal of IOL, remaining cortex & entire capsular bag