This document discusses cataracts, which are opacities of the crystalline lens in the eye. It describes the anatomy and functions of the normal lens. It then discusses different types of cataracts, including congenital/developmental cataracts caused by genetic factors or events during development, and acquired cataracts caused by aging, trauma, medical conditions like diabetes, or complications from other eye diseases. The management of cataracts, whether in children or adults, involves surgical removal of the opaque lens and correction of vision.
2. Crystalline lens
• Anatomy
o Transparent
o Biconvex
o Flat on ant. surface more than
posterior
o Avascular
• Approx. 18 diopters
• Refractive index
o Cortex: 1.38
o Nucleus: 1.42
• Functions
o Refracts light and focuses it on
retina by alteration of shape
(accommodation)
o Retinal protection from UV rays
o Neutralizes spherical and
chromatic aberrations of cornea
3. Structure and zones
• Made up of
o Capsule
o Lens epithelium (anterior only)
o Lens fibers
• Zones
o Cortex
• Anterior cortex
• Equatorial cortex
• Posterior cortex
o Nucleus
• Embryonic
• Foetal
• Infantile
• Adult
• Metabolism: facilitated diffusion of glucose from
across capsule
5. Congenital/
developmental cataract
• Fairly common 1:2000 live births
• Unilateral or bilateral
• May be non-progressive and visually insignificant
• May have a marked visual impairment
• Classified either by
o Morphology
o Aetiology
o Specific metabolic disorders
o Associated ocular abnormalities
o Systemic findings
6. Aetiology
• Gestational disturbance
o Intrauterine infections
o Maternal drug intake
o Irradiation
o Nutritional
• Metabolic disorders
o DM
o Galactosemia
o Hypoglycaemia
o Hypoparathyroidism
• Trauma
o Mechanical
o Electric shock
• Ocular anomalies
o Aniridia
o Ectopia lentis
o Persistent hyperplastic primary
vitreous
o Remnants of tunica vasculosa
lentis
o Congenital anomalies of lens
• Idiopathic
• Inheritance (recessive)
8. Polar cataract
• Opacities involve Lens capsule and subcapsular
cortex
• Subtypes
o Anterior polar
• Small
• Symmetric
• Non progressive
• Doesn’t impair vision
• May project into AC – pyramidal cataract
o Posterior polar
• Larger
• Closer to NP
• More visual
impairment
9. Lamellar (zonular)
• Most common type
• Bilateral
• Opacification of specific
layers/zones
• Slit lamp examination
o Layer of opacification involving foetal
nucleus surrounding clearer center and
surrounded in turn by layer of clear cortex
o Front view: disc shaped configuration
o Arcuate opacities straddle equator (riders)
• Aetiology
o transient toxic influence during
embryogenesis
o Calcium and vit D deficiency during
pregnancy
10. Complete (total/diffuse)
• May start as subtotal at birth then progress
• Profound visual impairment
• Requires urgent surgery
11. Coronary cataract
• Developmenta
• Manifested usually at puberty
• Club shaped opacities near periphery of lens with
broad ends towards center
12. Blue dot cataract
• Multiple small bluish dots
• Scattered all over lens
• Cause no visual disturbance
13. Nuclear cataract
• Rubella cataract
o Aetiology: maternal infection with rubella
virus during first trimester of pregnancy
o Characterized by pearly white nuclear
opacification
o Can progress to complete cataract and
occasional cortical liquification
o Systemic manifestations include
• Cardiac defects
• Deafness
• Mental retardation
• Cardiac conduction
o Ocular manifestations
• Diffuse pigmentary retinopathy
• Microphthalmia
• glaucoma
• Bilateral
• May involve embryonic nucleus alone or both embryonic and
foetal
14. Membranous cataract
• Lens proteins resorbed
• Only anterior and posterior lens capsules remain
and fuse into dense white membrane
16. Senile cataract
• Old people
• Not due to local or general disease
• Bilateral with one eye affected before the other
• Incidence
o Between 65-74 years 50%
o 75 years and above 70%
• Pathogenesis: multifactorial
18. Cortical cuneiform cataract
• Stages:
o Precataractous changes
o Incipient stage
o Immature stage
o Mature stage
o Hypermature stage
• Shrunken type
• Morgagnian
o Intumescent
19. Cortical cupuliform
cataract
• Posterior subcapsular
• Central
• Causes glare and poor vision under bright lightening
conditions
• Near vision reduced more than distant
20. Nuclear cataract
• Due to excessive amount of nuclear
sclerosis and yellowing which causes
central opacity
• Slow progression
• Interferes more with distant vision than
near
• Causes myopic shift (presbyopia)
• Grades:
o N1-N4: cataracta brunesecence
o N5: cataracta nigra
• Red reflex seen peripherally around
central disc of opacity appears which
appears black by retro-illumination
21. Traumatic cataract
• Perforating injury
• Concussion (contusion)
injury
o Vossius ring
o Rosette-Shaped opacity
o Subluxation and dislocation
• Radiation injury
o Ionizing radiation (X-ray)
o Infra-red radiation (glass blower’s
cataract)
o UV radiation
• Chemical injury
o Alkali (caustic) burn
o Chalcosis (sunflower cataract)
o Siderosis
• Electrical injury
22. Complicated cataract
• Due to local eye disease or general (systematic)
disease
• Local eye disease
o Perforated corneal ulcer
o Iridocyclitis
o Chronic glaucoma
o Retina and choroid disease
• General disease
o Metabolic
• DM
• Galactosemia
o Endocrinal
• Hyperparathyroidism
• Hypothyroidism
o Severe anaemia
o Hypertension
o Idiopathic: systemic steroids in genetically prone patients
23. Diabetes mellitus and the lens
Increased
blood sugar
Increased
aqueous
content of lens
Increased
glucose
content of lens
sorbitol
Water influx
into lens
Lens swelling
+
myopic change
Changeinrefractive
index
• Reverse to hypermetropic change if there is hypoglycemia
• Decreased amplitude
of accommodation
o With early presbyopia
• Cataract (two types)
o True-diabetic (snow-flake
cataract)
o Senile and pre-senile
cataract
24. Management
• Congenital
o Irrigation aspiration
o Lensectomy
o Correction of aphakia
• Contact lens
• Glasses
• Two pairs of glasses
• Intraocular lens implantation
o Foldable soft acrylic lens
o Iris-claw (artisan) lens
25. Management
• Adults
o Indications for surgery
• Improve vision
• Manage complications
• Manage underlying retinal
disease
o Preoperative evaluation
• Systemic evaluation
• Local ophthalmic evaluation
o Pertinent ocular history
o Visual acuity testing
o External examination
o Slit lamp-examination
o Fundus examination
o Retinal function tests
• Surgery
o Under local or general anaesthesia
o Operations
• ICCE
• ECCE
• phacoemulsification