Limbus

LIMBUS…
• The limbus forms the border between the transparent cornea and
opaque sclera, contains the pathways of aqueous humour outflow,
and is the site of surgical incisions for cataract and glaucoma

Anatomical Limbus: Circumcorneal transitional zone of the
conjunctivocorneal & corneoscleral junction
Conjunctivo-corneal junction:
• Bulbar conjunctiva is firmly adherent to underlying structures
• Substantia propria of the conjunctiva stops here but its epithelium
continues with that of the cornea.
Sclero-corneal junction:
• Transparent corneal lamellae become continuous
• With the oblique, circular and opaque fibres of sclera

CONTINUE….
• In the area near limbus, the conjunctiva, tenon’s capsule & the
episcleral tissue are fused into a dense tissue which is strongly
adherent to corneo scleral junction.It is preferred site for obtaining a
firm hold of the eyeball during ocular surgery.
• The limbus is a common site for the occurrence of corneal epithelial
neoplasm.
• The Limbus contains radially oriented fibrovascular ridge known as
the palisades of Vogt that may harbour a stem cell population. The
palisades of Vogt are more common in the superior and inferior
quadrants around the eye

CONTINUE…
• Limbal epithelial stem cells reside in the basal layer of the epithelium,
which undulates at the limbus.
• Daughter transient amplifying cells (TACs) divide and migrate towards
the central cornea to replenish the epithelium, which rests on
Bowmans layer .
• The stroma of the limbal epithelial stem cell niche is populated with
fibroblasts and melanocytes and also has a blood supply.

• LESC deficiency can occur as a result of primary or acquired insults.
Partial or full LESC deficiency leads to deleterious effects on corneal
wound healing and surface integrity .
• Deficiency can arise following injuries including chemical or thermal
burns and through diseases such as aniridia and Stevens Johnson
syndrome .
• As a result of LESC deficiency conjunctivalisation , neovascularization ,
chronic inflammation, recurrent erosions, ulceration and stromal
scarring can occur causing painful vision loss .

• Long term restoration of visual function requires renewal of the
corneal epithelium, through replacement of the stem cell population
has traditionally been achieved by grafting limbal auto- or allografts .
• Recently it has been demonstrated that other stem cell populations
including human embryonic stem cell and hair follicle stem cell can be
driven towards a corneal epithelial-like phenotype.
• These exciting data may lead to alternative therapeutic strategies in
the future for patients blinded by ocular surface disease cause by
failure of LESC function.

INTRODUCTION
• The sclera forms the posterior opaque 5/6 part of the external fibrous
tunic of the eyeball.
• Its whole outer surface is covered by tenon’s capsule and also by the
bulbar conjunctiva in the anterior part.
• Its inner surface lies in contact with the choroid with a potential
suprachoroidal space in bertween.
• Sclera is thickest posteriorly(1mm) and gradually becomes thin when
traced anteriorly.

Special regions of sclera
Scleral sulcus
• It is an indentation(furrow) on the inner surface of the anterior most point
of the sclera near the limbus.
Sclera spur
• It is a circular flang of the anterior most part of the sclera which lie deep to
schlemm’s canal.
• It appears wedge-shaped in section.
Lamina cribrosa
• It is a sieve-like sclera from which the fibres of the optic nerve pass.

Scleral apertures(emissaria): Sclera has three sets of apertures
1. Posterior aperture : situated around the optic nerve.
2. Middle apertures: situated 4-7mm posterior to the equator.
3. Anterior aperture: situated 3-4mm away from the limbus

Microscopic structure
• Histologically, sclera consist of following three layers:
1. Epicleral tissue
2. Sclera proper
3. Lamina fusca

Episcleral tissue
• It is a thin, dense vascularised layer of the connective tissue which
covers the sclera proper.
• Anteriorly it becomes continuous with the tenon’s capsule

Sclera proper
• It is an avascular structure which consist of dense bundles of
collagens fibres crossing each other in all direction.
• Variability in collagen fiber diameter, interlacing in bundles of
collagen, and relative deficiency in water-binding substances accounts
for the scleral dull-white color.
• This arrangement makes the sclera opaque in contrast to cornea.
• Mucopolysaccharides are present in the interfibrillar space of the
collagen fibre.
• Few fibroblasts are also present in this layer.

Lamina fusca
• It is the innermost part of sclera which blends with suprachoroidal
and supraciliary lamina of the uveal tract.
• It is brownish in colour owing to the presence of pigment cells.

Blood supply
• The episclera receives its blood supply from the anterior ciliary arteries,
anterior to the insertions of the rectus muscles and the long and short
posterior ciliary arteries.
Nerve Supply
• The sclera is supplied by the branches from the long ciliary nerves
anteriorly and short ciliary nerves behind the equator. Rich in nerve supply
so causes pain- inflammation, stretching due to oedema and movement of
eye

Function
• Protects intraocular components from trauma, light, and mechanical
displacement
• Withstands the considerable expansive force generated by the
intraocular pressure maintaining the shape of the globe
• Provides attachment sites for the extraocular muscles.

• Inflammations of sclera
1. Episcleritis (superficial)
2. Scleritis(deep)

Limbus

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Limbus