AHVS 1314: Ocular Anatomy and Physiology 1 - Limbus PDF

Summary

This document provides a comprehensive overview of the limbus, a crucial anatomical structure in the eye, focusing on its anatomy, physiology and functions. It covers histological features, the Palisades of Vogt, Limbal blood vessels, and lymphatics and limbal cell replacement.

Full Transcript

AHVS 1314: OCULAR ANATOMY AND PHYSIOLOGY 1

Limbus
Fatin Amalina Che Arif
MHSc. (IIUM)
 Outline:
1.) Limbus anatomy:
Histological features
Palisades of Vogt
Limbal blood vessels and lymphatics
Limbal cell replacement

2.) Limbus physiology:
Physiological features

https://www.researchgate.net/publication/221925887_Limbal_
Stem_Cell_Transplantation_and_Corneal_Neovascularization/fi
gures?lo=1
ANATOMY
 Anatomy
“Limbus" is a Latin word meaning "border" between two different types of tissues
o transitional zone between cornea and conjunctiva, and cornea and sclera
Externally- formed by the junction of corneal and conjunctiva epithelia
✓ change in the curvature, due to the different radii of curvature between the cornea and sclera
✓ this abrupt change of surface contour creates a shallow furrow or sulcus externally

Internally - limbal zone is located at the junction of the extreme terminus of the
Descemet's membrane and the anterior edge of Trabecular meshwork, that can be
identified as the Schwalbe's line under gonioscopy
 Several important transitions take place at limbus:

The regularly arranged corneal lamellae give way to the
more random array of lamellae in the sclera.
The stratified squamous non-keratinized corneal epithelium
with its parallel internal and external surfaces gives way to
conjunctival epithelium, characterized by a folded basal
surface and interdigitating subepithelial connective tissue
(sometimes forming distinct papillae).
Loops or arcades of conjunctival capillaries (derived from
the anterior ciliary arteries) and lymphatic capillaries
terminate at the limbus.
Desçemet’s membrane and Bowman’s layer terminate in
this region.
The loose conjunctival subepithelial vascularized connective
tissue (substantia propria), containing immunocompetent
cell types such as mast cells, plasma cells and lymphocytes,
tapers off at the limbus and is absent in the cornea.
 Histological features
Histologically, the limbus is a thin strip of approximately 1 to 1.5 mm in width which
encircle the periphery of cornea
At the limbus, the epithelium increase in thickness from a layer 5 cells thickness to 10
15 cells thick
Melanocytes may present at the basal layer and pigmentation may be evident in the
limbal and conjunctiva region

Bowman’s layer tapers and terminates.
 Limbus contains transitions from the very regular corneal lamellae to the irregular and
random organization of collagen bundles in the sclera – gives rise to the opaque feature
of sclera
Within the limbal stroma at the corneal periphery, a group of collagen fibrils has been
found lies circumferentially, forming an annulus
Limbal stroma contains mesenchymal cells and is highly innervated and vascularized

Descemet’s membrane tapers at the anterior limbal boundary, and the posterior non
banded portion become interlaced with the connective tissue of the anterior sheets of
the trabecular meshwork

The corneal endothelium continues into the anterior chamber as the endothelial covering
of the sheets of the trabecular meshwork

https://link.springer.com/chapter/10.1007/978-3-319-98080-5_5
 Palisades of Vogt
A radial projection of limbal epithelium and stroma that extend into the cornea in
spoke-like fashion.
The epithelium in this area is the suspected site of stem cell origin (the source of
corneal epithelial basal cell replication)
This projection may appear as thin, grey pegs approximately 0.5 mm wide and 2-4 mm
long.
✓ Research1 found that PoV are more discrete in younger and in more heavily
pigmented individuals, and that they appear more regular and prominent at the
lower limbus than at the upper limbus M. F. Goldberg and A. J. Bron, “Limbal Palisades of Vogt,” Transac-tions of the American Ophthalmological Society 80 (1982): 155–171

https://www.researchgate.net/publication/8551938_Characterization_of_Putative_Stem_Cell_Phenoty
pe_in_Human_Limbal_Epithelia/figures?lo=1
https://translational-medicine.biomedcentral.com/articles/10.1186/s12967-024-05603-y
https://www.researchgate.net/publication/257731893_Tseng_2010_Critical_Appraisal_of_Ex_Vivo_Expansio
n_of_human_LESC/figures?lo=1
 Limbal blood vessels and lymphatics
Limbal vessels originate from the ophthalmic artery with their anterior ciliary branches running
forward and the arterioles ending in a complex capillary network to give a rich blood supply to
the limbus

The conjunctival vessels form a superior plexus that branches and extends toward the limbus to
form the marginal corneal arcades (MCA) and vessels in the palisades of Vogt

Immune complexes are present in the extravascular
space

Capillary loops from conjunctival and episcleral
vessels form networks in the limbus, which surround
the cornea and provides nourishment to the avascular
cornea

Limbal veins collect blood from the anterior
conjunctival veins and drain into the radial episcleral
veins, which then empty into the anterior ciliary veins
 Lymphatic limbal vascular complexes (LLVC)- originate from the bulbar
conjunctival lymphatics

Two interconnected plexes (superficial and deep) - drain towards the
palpebral commissures, where the fluid enters into the lymphatics of the
eyelids and ultimately reaches the lymph nodes

Lymphatic channels located in the limbal area do not enter the cornea

https://www.sciencedirect.com/topics/neuroscience/lymphatic-vessel
 Limbal cell replacement
Cell in limbal basal epithelial layer - smaller and darker staining than the usual epithelial cells

The histochemical features suggest presence of stem cells, which capable for cell proliferation
limbal stem cells

Centripetal movement from the limbal area is responsible for cell migration and replacement of
corneal epithelial basal cells in both normal cell
replacements and wound healing

https://www.researchgate.net/publication/253649259_Review_Corneal_epithelial_stem_cells_t
heir_niche_and_wound_healing/figures?lo=1
PHYSIOLOGY
 Functions
In general, it acts as:
❖ a barrier to prevent overgrowth and migration of
conjunctival cells to the corneal region
❖ a stabilizer to absorb small pressure changes to
maintain corneal curvature and refractivity
❖ a site richly infiltrated with vasculatures and
lymphatics to nourish the peripheral corneal tissue
❖ a location of aqueous humor drainage through the
trabecular meshwork to maintain a healthy level of
intraocular pressure
❖ an important niche of stem cells for corneal tissue
regeneration and wound repair
Thank You