Endothelial Treatment Info

One of the most recent advances to treat the decreased vision and swollen, cloudy corneas seen in Fuchs Dystrophy is a technique called Descemet Stripping Only (DSO), also referred to as Descemetorhexis Without Endothelial Keratoplasty (DWEK). This innovative procedure strips away the damaged membrane in a small 4mm circular area on the back of the cornea. Then, instead of implanting donor cornea tissue, the person’s own endothelial cells redistribute across the treated area to restore the normal functioning of the cornea.

One of the most exciting aspects of this new technique is that it eliminates the potential for vision-threatening rejection episodes that can occur after a cornea transplant. The procedure is most suited for patients where the progression of the disease is primarily in the central portion of the cornea.

Compared with implanting a thin layer of donor tissue, the visual recovery may be somewhat slower with the DSO/DWEK procedure, due to the time it takes for the person’s own cells to repopulate the surgical area; however, an advantage is that because no donor tissue is transplanted, there is no need for long term use of immune-suppressing steroid eye drops to mitigate the risk of transplant rejection.

There are currently a number of clinical trials underway to investigate whether different drugs may accelerate recovery and resumption of normal activities following the DSO procedure. For a list of all clinical trials related to Fuchs Dystrophy please visit the Clinical Trials site here.

Trefoil Therapeutics has an active clinical trial (STORM) investigating the use of TTHX1114 in conjunction with DSO.

If you are interested in obtaining more information regarding the STORM clinical trial please submit a request for information here: STORM Clinical Trial page.

More recently DMEK has been developed and in this procedure a thinner layer of transplant tissue is used. 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, with many patients achieving 20/25 vision or better within the first six months after surgery. Patients can resume normal activities quickly and avoid vision-threatening rejection episodes. This is because compared to (penetrating keratoplasty, PKP) and DSEK options, DMEK is the most anatomical repair possible – just one cell layer (the endothelial cells) and a thin membrane all of which is only 15 to 20 microns thick.

DMEK provides the lowest risk of graft rejection; fewer than 1 in 100 of DMEK patients have experienced a graft rejection episode.

Descemet’s Stripping Endothelial Keratoplasty surgery improves vision by removing the damaged cells and replacing them with healthy endothelial donor tissue. It is a partial-thickness corneal transplant that uses a much thinner donor tissue than a complete transplant.

DSEK, is a thicker posterior corneal transplant than DMEK. The advantage of the thicker graft is that it is easier for the surgeon to position the tissue behind the patient’s cornea and it adheres easier. There is less likelihood of the patient needing additional air injections to get the tissue to adhere, so there may be fewer post-operative visits for the patient.

After DSEK surgery, you should be able to see better within 2 – 3 months. By the fifth or sixth month, you can expect to have 20/40 vision. DSEK has a very high success rate with only 1 in 10 patients experiencing donor tissue rejection after the first year. If the donor cornea is rejected, the procedure can be performed again.

Advances in technology and surgical technique have led to the development of alternative transplantation procedures that involve transplantation of only the inner endothelial layer of the eye. The procedure options, DSEK (Descemet’s Stripping Endothelial Keratoplasty) or DMEK (Descemet’s Membrane Endothelial Keratoplasty), replace the affected cells while keeping the outer layer of the eye intact and providing better visual recovery.

More recently a procedure known as DSO (Descemet’s Stripping Only) has been developed which does not require the transplantation of donor cornea tissue. In this procedure the affected cells are stripped away (as with a traditional transplant) and the cornea is left to heal through the regeneration of the patient’s own endothelial cells. In some cases, a drug will be prescribed to stimulate faster regeneration of the endothelial cells. Each of these procedures is described in more detail below:

(DSEK) and (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.

Surgery is performed in an outpatient surgery center which means it is not necessary to enter or be admitted to a hospital. Anesthesia is given intravenously and with eye drops (topical anesthesia). The diseased innermost layer of the cornea is removed carefully and the corresponding thin layer from a healthy donor cornea is put in its place. The transplant is held in place by only an air bubble, requiring patients to lay flat on their backs with their faces directed upwards immediately after surgery to float the bubble into place. The bubble goes away within the first week and as it does, patients do not need to lay flat as much. The surgery can be combined with cataract surgery for patients who require both.

If the whole thickness of the cornea is unhealthy, a full thickness corneal transplant called a Penetrating Keratoplasty (PK) will be required. During the PK procedure a circle of corneal tissue is removed and replaced with the donor tissue. The new corneal tissue will be stitched into place for a comfortable and smooth healing process.

There is a long-term 22% rate of rejection due to the more complicated nature of the procedure to replace the full thickness cornea and this will only be recommended when the surgeon determines another procedure is unlikely to be successful.