About The Cornea
The cornea is the clear, outer surface of the eye. The shape of the cornea plays an important role in focusing light on the retina. A standardly shaped cornea and a healthy, clear lens allow light in to focus clearly. If the cornea becomes cloudy or if the cornea becomes irregular in shape, vision can be impaired.
Seeing a cornea specialist at the recommendation of your hometown eye doctor in Omaha, NE cannot only change your vision, it may transform your life. Your vision is precious. Ophthalmologists at Vance Thompson Vision, like Dr. Brandon Baartman, can detect and treat corneal disease or trauma when wearing glasses or contact lenses are no longer meeting your needs.
About The Cornea Reviews
Candidates for Consultations
Patients suffering vision loss from a diseased or irregularly shaped cornea, such as when a patient has keratoconus, are good candidates for one of the many surgical or nonsurgical cornea treatments.
Evaluation & Diagnosis
Once you have made an appointment for your initial consultation, we will perform an evaluation to create a custom treatment plan designed for you. At your consultation, be prepared to discuss your symptoms, personal health history, family medical history, and undergo several diagnostic screenings. At Vance Thompson Vision – Omaha, our goal is to utilize state-of-the-art technology to get the most accurate diagnosis to provide you with the most comprehensive eye care.
Many of the disorders associated with the cornea are genetically passed from family member to family member, but conditions can also be from an injury to the cornea from trauma or excessive rubbing of the eye. A patient with an unhealthy cornea can experience distorted vision, light sensitivity, irritation, blurring of vision, swelling, and/or glare. Vision loss (including night vision) can be improved with a surgical and nonsurgical intervention to treat conditions involving the cornea.
Keratoconus is an eye condition where the cornea becomes thin and bulges forward. A healthy cornea maintains a round dome shape. An eye with keratoconus develops a cone-like bulge, and this change in the corneal shape distorts vision. Keratoconus can make it difficult for a person to drive, read, and watch television.
With treatment, keratoconus can resolve and heal, but scarring on the eye can remain and diminish vision quality. The keratoconus treatment method depends on the condition's severity. In the early phases of the disease, eye doctors can treat it with glasses or contact lenses. The doctor may use specialty contact lenses that help to artificially smooth the eye surface so the eye can reflect light evenly.
Ideally, all patients would be treated with corneal cross-linking prior to their disease progressing. As keratoconus progresses the cornea eventually becomes too thin to cross-link and the patient may need a cornea transplant to replace the damaged cornea with a healthy donor cornea. A less invasive method of keratoconus treatment involves the implantation of corneal inserts, such as Intacs. Corneal inserts are small segments placed in the cornea to flatten the cornea when contacts and glasses can no longer correct the patient's vision and delay the need for a corneal transplant.
Corneal collagen cross-linking is a method of treatment for ectasia, a devastating disease characterized by an irregularly-shaped cornea, or eye surface. People who suffer from ectasia experience a bulging and protrusion of their cornea in a cone-like shape. Ectasia often occurs in patients with keratoconus (KCN) and pellucid marginal degeneration (PMD), disorders associated with the thinning of the cornea region. In patients with ectasia, the surface of their eye begins to protrude at the weakest and thinnest point, which significantly decreases the patient's ability to see clearly.
Our corneas naturally contain cross-links between collagen fibers in order to maintain shape and strength. Ectasia is a result of not enough of these cross-links to support the cornea, leading to the corneal irregularities. Corneal cross-linking uses a combination of riboflavin and ultraviolet light to create additional cross-links, promoting corneal stability and strength. This procedure is minimally invasive, so it does not involve any surgical incisions into the eye.
Through corneal cross-linking, the collagen fibrils in the cornea chemically bond together to halt the thinning process and to restore visual acuity. The primary goal of cross-linking for keratoconus patients is to strengthen and stiffen the corneal fibers in order to decrease the progression of keratoconus.
Fuchs' dystrophy is an inheritable disease that affects the cornea, the clear front area of the eye. The disease causes the cornea to swell because the inner layer of the cornea, the endothelium, begins to diminish. Endothelial cells regulate the correct amount of fluid in the eye by pumping out fluid. When fewer of these cells line the eye's inside surface, fluid begins to build up in the cornea. As the cornea swells with the extra fluid, the patient's vision worsens. As the disease worsens, the cornea can develop blisters on the cornea, a condition called bullous keratopathy.
No prevention for Fuchs' dystrophy is known. Doctors treat the disease based on its stage. Removing excess water from the cornea with hypertonic eye drops is usually not an effective treatment for patients but can be tried in the early stages of the disease.
If a patient has high eye pressure and Fuchs' dystrophy, glaucoma eye drops may help to decrease eye pressure. High eye pressure can cause Fuchs' dystrophy to progress further, so maintaining a low eye pressure is important for patients with both conditions.
Once Fuchs' dystrophy reaches a point where it significantly impairs a patient's vision, then a cornea transplant can restore vision. An alternative to a full corneal transplant is a transplant of only the inner endothelial layer of the eye. The procedure options, DSEK or DMEK, replace the affected cells while keeping the outer layer of the eye intact and providing better visual recovery.
Partial-Thickness Corneal Transplant (DSEK and DMEK)
Descemet's Stripping Endothelial Keratoplasty (DSEK) and Descemet's Membrane Endothelial Keratoplasty (DMEK) are procedures for replacing only the two most posterior or inner layers of the cornea with donor tissue. Partial-thickness corneal transplants provide a transplant technique for patients when the interior endothelial layer of the cornea has broken down.
In partial-thickness corneal transplants, the surgeon first removes the existing endothelial layer from the patient's cornea. The surgeon then uses a small incision to insert the donor tissue. Using a gas or air bubble, the surgeon unfolds the donor cornea and places it correctly. The incision may need one or two sutures, but it often seals on its own.
Nationally DMEK is a common method for partial-thickness corneal transplants. Patients with severely damaged corneas because of an endothelial disorder such as Fuchs' dystrophy can experience improved vision through DMEK. Rather than replacing the full cornea with a donor cornea, DMEK replaces only the interior layer of the cornea, called the endothelium. With DMEK, patients are less likely to reject the donor tissue than with the thicker DSEK, and the visual clarity after surgery can be better.
DSEK is similar to DMEK, and it is a partial-thickness corneal transplant that uses a much thinner donor tissue than a complete transplant. DSEK replaces the damaged endothelial layer, creating a healthy endothelial layer of the cornea. Some surgeons use donor tissues that are already prepared so the tissue is ready for implantation.
A cornea transplant is a surgical procedure where a surgeon replaces part of a patient's diseased cornea, creating the opportunity for restored vision. Patients with a damaged cornea that prevents acceptable vision are candidates for corneal transplantation. This procedure allows patients to have clearer vision through a full replacement of the cornea with a donor cornea.
A corneal transplant involves replacing the center part of the cornea, called a button, with a donor graft. The surgeon begins by carefully removing the diseased central area of the cornea. The surgeon places a matching donor button in its place. The surgeon then uses stitches to connect the donor tissue and the existing tissue if the transplant is full thickness. Through cornea transplants, patients who have experienced severe vision loss because of damaged corneas can have a renewed vision with a properly-shaped cornea.
Assess Your Cornea at VTV
Our Vance Thompson Vision ophthalmologists and optometrists are internationally recognized for their excellence in cornea transplant surgery. Rest assured that your vision is in good hands. The Vance Thompson Vision community will help you understand your vision condition and the different options for treating your eyes so that you can enjoy life with your sight intact. If you are interested in discussing cornea problems with our team in Omaha, NE, please feel free to call our office directly.
Frequently asked questions about cornea conditions.Read
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