✅Anatomy of the Cornea:
• 11.5 mm horizontal diameter
• 10.5 mm vertical diameter
• 1 mm thick periphery
• 0.5 mm thick centrally
• Anterior surface radius 7.7 mm
• Posterior surface radius 6.8 mm
✍️ Epithelium
• Stratified squamous, nonkeratinized, nonsecretory epithelium (keyword)
• 5–6 layers
• Superficial cells have microvilli (needs
tears to keep cornea smooth)
• Basement membrane (strongly attached
to Bowman’s layer )
✍️ Bowman’s layer
• 8-12 μm
• Acellular
• type IV collagen
•Don’t regenerate , replaced by fibrous tissue if damaged (scars)
• Ends abruptly at limbus
✍️ Stroma (substantial propia)
• 90% of cornea thickness, 400 μm centrally
• 80% water
• Glycosaminoglycans in extracellular matrix
– Keratan sulphate (50%)
– Chondroitin phosphate (25%)
– Chondroitin sulphate (25%)
• posterior condensation of the stroma is newly called ( Dua layer)
✍️ Descemet’s membrane
• Basement membrane of the endothelium
(keyword)
• 10 μm thick
• Secreted and regenerated by endothelial cells
• Type IV collagen
• Hassall-Henle bodies( peripheral)
• Terminates abruptly at limbus (Schwalbe’s
line)
✍️ Endothelium
• Single layer, polygonal, cuboidal cells
• Tight junctions (control of corneal hydration)
• Microvilli
• Don’t regenerate
• Repair occurs by cellular hypertrophy ( polymegacism)and sliding(polymorphism)
• Line passages of trabecular meshwork
✅ Physiology of Cornea:
• Light transmission (400–700 nm light)
• Light refraction:
• 43 D (70% of eye’s refractive power)
• Refractive index of cornea 1.376
• Protective function to the globe
• Cornea obtains glucose mainly from aqueous but tears and limbal capillaries appear to provide
minimal contribution
• Glucose can be stored in epithelium as glycogen
• ATP obtained by glycolysis and Kreb’s cycle
• oxygen from aqueous or from either capillaries at the limbus or precorneal film
✅ The Cornea Transparency due to :
• Relative dehydration of cornea by endothelium and epithelium
• Endothelial pump removes fluids from stroma
• Evaporation of water from tear increases
osmolarity of tear, which draws water from cornea
• Normal intraocular pressure (if too high, relative hydration occurs)
• Relative acellularity, lack of blood vessels and pigments
• Regular matrix structure of corneal fibrils
• Destructive interference of light occurs
• Consistent refractive index of all layers
✅ Nerve Supply in The Cornea:
• 5th CN ( ophthalmic division)
• Long posterior ciliary nerves gives 3 plexuses
– Annular plexus at limbus
– Subepithelial plexus just below Bowman’s membrane
– Intraepithelial plexus
• Nerves loss it’s myelin just after entering the cornea.
The cornea power point presentations:
Anatomy of cornea
https://www.slideshare.net/NiKeRIO/anatomy-of-cornea
- Introduction CORNEA – Medieval Latin “ co rne a te la “ HORNY WEB (latin ,cornu = horn) Transparent avascular tissue with a convex anterior surface & concave posterior surface. Main function is OPTICAL Accounts for 70% of the total refractive power of the eye (+ 43D) Other functions are: -STRUCTURAL INTEGRITTY -PROTECTION FOR
- DIMENSIONS Anterior Surface : Vertical – 11.7 mm Horizontal – 10.6 mm Posterior Surface : Both 11.7 mm Thickness : Central 0.52 mm Peripheral 0.67 mm Surface Area: 1.3 cm2
- Radius of Curvature Anterior – 7.8 mm Central 1/3 Posterior – 6.5 mm – Peripheral cornea is more flattened Topography Anterior curvature is spherical in 2-4 mm zone decentered upwards & outwards relative to visual axis but centered to the pupillary aperture( lies 0.4 mm temporally) — CORNEAL CAPorAPEX Curvature varies from apex to limbus , greater
- STRUCTURES 5 LAYERS A nterior Epithelium Bowman’s layer C entral stroma Descemets membrane Endothelium.
Anatomy & physiology of cornea
https://www.slideshare.net/sbjbsl/anatomy-physiology-of-cornea
The Cornea Videos :
Cornea : 1. anatomy
The cornea
