Post on 10-Feb-2016
description
Corneal laceration
Alireza Peyman, MD
Surgical repair The primary goal is to achieve a watertight
globe and maintain structural integrity.
Secondary goals include: removing any disrupted lens fragments and
vitreous repositioning any uveal tissue relieving vitreous incarceration removing any intraocular foreign bodies restoring normal anatomic relationships
Partial-Thickness Corneal Lacerations Must be examined carefully to rule out any
rupture of Descemet
Seidel testing
Modified Seidel testing
If the wound edges are in good apposition with no wound gape, pressure patching with the use of prophylactic topical antibiotics is sufficient.
If the wound is unstable, a bandage soft contact lens may be used to support the wound
Partial thickness laceration with gape Sutures may be used to re-approximate the
wound margins.
In these settings, properly placed sutures will minimize scarring and perturbation of the ultimate surface corneal topography
Full-Thickness Corneal Lacerations
BANDAGE SOFT CONTACT LENS For small, self-sealing corneal perforations, a
bandage contact lens may be sufficient
Such lacerations include nondisplaced, beveled, self-sealing wounds.
If aqueous leakage persists for more than 24 hours or there is progressive shallowing of the anterior chamber, more definitive treatment should be undertaken
In cases that respond satisfactorily, the contact lens should be kept in place until the wound has stabilized (usually 3–6 weeks).
A protective shield should be worn at all times.
Topical antibiotic prophylaxis and cycloplegia are recommended with the lens in place.
TISSUE ADHESIVE. Tissue adhesive may be useful for puncture
wounds with small amounts of central tissue loss and selected small lacerations. It is not routinely utilized.
SUTURE REPAIR OF SIMPLE CORNEAL LACERATIONS The primary goal of corneal suturing is to
achieve a watertight wound.
Secondary goals include minimizing scarring restoring normal anatomic relationships reconstructing the normal corneal topographic
contours
For a wound that is less stable, a viscoelastic may be irrigated into the anterior chamber either directly through the wound itself or through a separate limbal paracentesis incision
visco through the wound or through a paracentesis incision will help
To form the chamber: Balanced salt solution or air may also be used
to re-form the anterior chamber.
In most cases, a limbal paracentesis with a A 15-degree sharp microsurgical knife is preferred because it will minimize disruption of the wound edges and permit better access as the case proceeds
Temporary sutures Temporary sutures may be used if the initial
placement of deep definitive sutures would cause loss/flattening of the anterior chamber.
The number of temporary sutures should be minimized, however, to prevent undue trauma to the wound margins
Technique and material For corneal suturing, 10-0 monofilament nylon
on a fine spatula-design microsurgical needle is used.
The simplest method is to progressively halve the wound with simple interrupted sutures.
Corneal sutures should be 90% to 95% depth through the stroma 1.5 mm in length of equal depth on each side
Shallow sutures create internal wound gape, whereas sutures of unequal length and depth on each side of the wound result in wound override.
Deep suture placement equidistant from the wound margins gives excellent wound approximation
Shallow sutures create internal wound gape
Full-thickness sutures may create a conduit for microbial invasion
Sutures of unequal depth create wound override.
Sutures of unequal length create wound override
For shelved lacerations, sutures should be placed equidistant with respect to the internal aspect of the wound to achieve good wound apposition
Making the suture bites close to the visual axis short
“no-touch” technique
When using a running suture for a nonlinear laceration, the suture should be placed with respect to a straight “regression” line
Suture knot burial
STELLATE CORNEAL LACERATIONS
Bridging sutures
Purse-string suture
multiple interrupted sutures and tissue adhesive or patch graft
CORNEAL LACERATIONS WITH UVEAL PROLAPSE.
Iris incarceration A peaked pupil signals tissue incarceration
Macerated, feathery, devitalized, or depigmented iris should be excised
The prolapsed tissue should be evaluated for any signs of surface epithelialization. In this case, it should be excised to prevent any
epithelial cells from proliferating in the anterior chamber
In general, tissue that has been prolapsed for longer than 24 hours should be excised to avoid infection;
however, if the tissue appears healthy, it may be replaced with caution.
Repositioning Pharmacological
Midriatics Myiotics
Mechanical simply deepening Viscoelastics through the paracentesis or the
wound a spatula or irrigating canula may be passed
through the paracentesis site and used to directly sweep incarcerated tissue
CORNEAL LACERATIONS WITH LENS OR VITREOUS INVOLVEMENT
Primary removal of the lens Disrupted capsule and flocculent cortical
material liberated into the anterior chamber.
In cases in which vitreous is involved with lens remnants, this may be best addressed in the initial surgery.
When it is clear that a lens is cataractous and surgical visualization is good, the lens may be removed in the primary operation.
Vitreous strands are swept into the anterior chamber
CORNEOSCLERAL LACERATIONS
For large lacerations with structural deformation, sutures should be placed to restore wound integrity before rigorous exploration of the globe
Initially, the limbus should be reapproximated with 8-0 or 9-0 nonabsorbable nylon or silk sutures.
it is important to clear the wound of any prolapsed or incarcerated vitreous with dry cellulose sponges and cut
options in selecting suture material for scleral closure Some surgeons prefer nonabsorbable sutures
Others may use absorbable materials
For larger defects, nonabsorbable sutures should be used
closing sclera over prolapsed uvea Most easily closed from the anterior (limbal)
end “ zippering” or “close-as-you-go” technique.
sutures are placed in close proximity to one another in an attempt to achieve oversewing of the uveal tissue with the sclera.
Posterior extention scleral lacerations may extend far posteriorly,
and may not be accessible.
In these situations, it is preferable to leave the most posterior portion of the wound unsutured
The sclera is thinnest behind the muscle insertions; thus, careful exploration of these areas is crucial
ANTERIOR SEGMENT FOREIGN BODIES
FBs Metalic Vegetable matter Glass Plastic Stones Other materials
Typically, the foreign body is small and the eye may not show obvious signs of trauma
Foreign bodies frequently lodge in the anterior chamber angle and may display overlying focal corneal edema.
Gonioscopy may be useful in detecting the foreign body
may also embed themselves in the lens and may create a focal cataract. Iris transillumination defects may signal an entry site.
Imaging Plain graphies
CT
MRI
B-scan sonography
UBM
Removal Through an incision directly overlying
From a limbal incision across the anterior chamber
Post-op management
Medical therapy To control infection
To suppress inflammation
To stabilize the ocular surface
Antibiotics Sub-conjunctival
Intra-op Intra-vitreal
Intra-op IV
Vanco or cephalosporine+AG Topical
Fortified, or 4th generation flouroquinolones Oral
After discharge
Clindamycin should be considered in cases involving vegetable matter to cover Bacillus species.
Top: 50mg/ml Subconj: 50mg/0.5ml Intravitreal: 1mg/0.1ml
Corticosteroids To minimize scarring and new vessel ingrowth
The anti-inflammatory advantages against the risk of infection
May also diminish the rate of stromal healing as well as the tensile strength of the wound
Corticosteroid use should be kept at a minimum in the early postoperative period
Others Topical β-blockers
Carbonic anhydrase inhibitors
Lubricants
Bandage contact lenses
Patching
Tarsorrhaphy
Thank you for your attention