Pre-Descemet's Endothelial Keratoplasty
Pre Descemet’s endothelial keratoplasty (PDEK) is a kind of endothelial keratoplasty, where the pre descemet’s layer (PDL) along with descemet's membrane (DM) and endothelium is transplanted.[1] Conventionally in a corneal transplantation, doctors use a whole cornea or parts of the five layers of the cornea to perform correction surgeries. In May 2013, Dr Harminder Dua discovered a sixth layer between the stroma and the descemet membrane which was named after him as the Dua's layer. In the PDEK technique, doctors take the innermost two layers of the cornea, along with the Dua's layer and graft it in the patient's eye.
Definition
The normal cornea (Fig 1) has from the front to the back the following layers:
1. Epithelium
2. Bowmans membrane
3. Stroma
4. Pre Descemets layer
5. Descemets membrane
6. Endothelium
For the human eye to see, the cornea or the front window of the eye should be clear or transparent. For that to happen the inside corneal layer the endothelium pumps out water from the cornea so that the cornea remains transparent and light can pass into the eye and one can see. If the endothelium is bad the cornea starts having lot of water and gets damaged which is called Bullous Keratoplasty. Thus PDEK helps in replacing the non function endothelium in bullous keratopathy. PDEK is different from the whole cornea transplantation in which the transplantation of entire donor cornea to the recipient is done.[2][3] Normal corneal thickness is about 520 to 540 microns in the centre and 600 to 620 microns in the periphery.[4] Pre descemet’s layer which is dissected in PDEK, measures about 10.15±3.6 microns thick.[5] The descemet membrane (DM) measures about 16±2 microns (range 13-20µ) thick and the normal endothelium is about 5 microns thickness. Hence the overall thickness of the PDEK graft will be about 32 to 44 microns.[6]
History
Prof Amar Agarwal (India) in 2013, September 4th performed the first innovative PDEK surgery technique in collaboration with Prof Harminder Dua (UK) and showed the significance of the Pre Descemets layer in corneal transplantation.[7] The initial surgery was performed for pseudophakic bullous keratopathy. Though donor eyes of all age group were used in the initial PDEK cases; there was marked difference in eyes with young donor corneas which resulted in better corneal clarity and visual outcome. This paved the way for the difference of PDEK using young donors and the importance of the endothelial viability.
Indications
PDEK surgery can be performed in patients with decompensated cornea like pseudophakic bullous keratopathy, aphakic bullous keratopathy, congenital endothelial decompensation like Fuch’s dystrophy of cornea and post traumatic endothelial decompensation.[1]
Donor Age
PDEK graft can be harvested from donor of any age.[8] Easy dissection of PDL layer in infant (less than 1 year), pediatric (1- 15 years) and young donor (15 -40 years) is an added advantage in PDEK procedure, which helps in transfer of viable endothelial cells with maximum regenerating capacity from this group of donors.
Recipient Age
PDEK graft is transplanted so far for adult patients who have lost vision due to endothelial decompensation meaning the Endothelium is not working.[1]
Surgical Technique
Graft can be obtained from a dissected corneoscleral button taken from the deceased. The procedure is performed in sterile operating theatre setup. PDEK graft is prepared initially and kept in the storage medium (Optisol or MK medium) till the recipient bed is prepared.[1]
Graft Preparation
The donor corneoscleral rim (donor cornea) is placed on the eye mount with the endothelial side facing the surgeon. A 30 gauge needle attached to a 5 ml syringe filled with sterile air is passed from the limbus (edge of the cornea) into the mid stroma (middle of the corneal layers) with the bevel of the needle facing upwards. Once the needle is stable in the stroma, controlled air injection is performed. Numerous tiny air bubbles are seen cleaving the stroma and finally they coalesce to form one large bubble or Big bubble (BB) (Fig 2A). Once the type 1 BB is formed in the centre, it is gradually enlarged to maximum size which is about 8 mm. Following this, the bubble is pierced with a trephine or knife (Fig 2B) and the graft is dissected meticulously. It is then stained with a dye (trypan blue) and delineated well (Fig 2C, D). The dissected PDEK graft is then placed in a storage medium till the recipient (patient) is ready for transplantation.
Host Bed Preparation
After obtaining the informed consent from the patient, local anesthesia is given. Anterior chamber entry (eye entry) is made by a blade in the superior corneo-limbus area. Descemet’s membrane along with endothelium in the patient is removed mechanically by reverse Sinskey hook by controlled stripping on the endothelial side (Fig 3A-C).
Graft Injection into Host Bed
The PDEK graft which is already preserved in the storage medium is then placed in an injector (Fig 3A). The graft takes a shape of scroll immediately after dissection and the surgeons maintains the integrity or orientation of the scroll throughout the procedure. The injector along with the graft is inserted via the corneal wound and the graft is injected in the anterior chamber (Fig 3C). Initially the graft is made sure that it is oriented with endothelium down and PDL against the host stroma. This can be confirmed by using an endoilluminator because in eyes with corneal decompensation, the clarity is usually poor and the visualization of graft is affected under naked eye.8 once the orientation is confirmed, the graft is unfolded under saline (Fig 3D). Then the graft is attached to the overlying host stroma pneumatically (Fig 3E,F). Air fluid pressure is maintained inside the chamber for 60 seconds and then minimal air is released. The wound is closed with 10-0 monofilament suture and subconjunctival antibiotic steroid injection is given.
Predescemet's Endothelial Keratoplasty With Glued Intraocular Lens (IOL)
Normal human lens is placed inside a capsular bag by nature. During trauma, surgery or sometimes by genetic cause the bag is damaged, weak or absent. Under this condition, one cannot place a normal intraocular lens (IOL) in the bag. To overcome this problem, the technique of glued IOL was introduced by Prof Amar Agarwal in 2007, December for lens implantation in eyes with the absent or deficient capsular bag.9,10 Here 2 scleral flaps about 180 degrees apart are made and the IOL is inserted through the corneal incision (Fig 3). After making the sclerotomy below the flaps, the haptics are externalized and tucked in a scleral tunnel at the point of exit. Maggi and Maggi in 1997 were the first to report sutureless scleral fixation of a special IOL. Gabor Scharioth and Pavilidis in 2006 reported the scleral tuck and intrascleral haptic fixation of a posterior chamber Intra ocular lens (PC IOL). Fibrin glue is applied for apposing the flaps and conjunctiva. PDEK can be combined or performed simultaneously with glued IOL implantation in eyes with existing corneal decompensation with aphakia, IOL decenteration or dislocated lens. Sometimes, one may require removal of the existing lens (as in Anterior Chamber IOL) and replacement with the other by this method. So far we have seen good anatomical and functional outcome in combined PDEK with glued IOL (Fig 4).
Predescemet's Endothelial Keratoplasty in Infant Donor
Normal endothelial cell count at birth is about 4000 cells/sq mm. Adult population has a count of about 2500 to 2800 cells/Sq mm and loses around 0.6% cells per year. The cells in infant have potential regenerating capacity unlike the adult cell and this can be utilized for PDEK to obtain excellent functional outcome. Infant donor eyes are eyes of donor less than or equal to 1 year. In our experience we noticed that the infant donors have maximum viable cells which can expand and cover the entire cornea in a decompensated adult cornea. Because type 1 BB is formed easily in young corneas, this is an added advantage in PDEK which can be performed in infant donors. Our preliminary results on Infant donor PDEK have been excellent and we expect to do more research on the functional differences in the young donors.7
Postoperative Care
Post operatively these patients are given topical steroids and antibiotics for 1 month. Low dose steroids are kept in maintenance for one year. Topical lubricants are prescribed according to the ocular surface changes. Preservative free lubricants are initiated in patients with immediate epithelial changes. Intraocular pressure is monitoring on regular basis to assess the steroid induce glaucoma. Follow up visits are preferred as day 1, day 3, day 7, 2 weeks, 1 month, 3 months and then 6 monthly. Post operative anterior segment optical coherence tomography may be performed for assessing the anatomical success of the technique.
Advantages
From the patient’s point of view, the chances of rejection are less as compared to whole corneal transplantation as the PDEK graft has minimal PDL layer hence.11,12 Early visual rehabilitation is obtained (Fig 5) and the suture related complications are minimized. From the surgeon’s point, PDEK graft is thicker than isolated DM graft and hence there is less intraoperative graft handling challenges like torn graft, tissue loss or ragged edges. Pneumatic dissection induced endothelial cell loss is also noted to be not higher than or in fact better than other endothelial keratoplasty.13 Since it is harvested from all age groups, the limitation of donor age is lessened. Minimal interface opacification, less refractive shift and reduced topographic changes are the extra benefits of PDEK.
Complications
Intraoperatively, bubble related problems can happen in early learning curve. This can be managed by proper positioning of needle and controlled intrabubble pressure. Postoperative graft detachment can happen in eyes with insufficient air or loss of air after surgery.1,6 If the graft is detached in the centre and there is significant cornea edema, immediate graft repositioning by air is performed in operating theatre under sterile precautions.
Postoperative Outcomes
In the last one and half year, many patients have been benefitted by PDEK surgery.1,6,7 Early visual recovery and less post operative inflammation is the main advantage. Young donor eyes seemed to have made a huge difference in the visual quality and functional outcome. There are additional research studies in progress to elucidate the regenerating capacity of the endothelial cells in vivo.
References
- ↑ 1.0 1.1 1.2 1.3 "Pre-Descemet's endothelial keratoplasty (PDEK)". ncbi.nlm.nih.gov//. 2014-03-21. Retrieved 2015-05-21.
- ↑ "Penetrating keratoplasty in pseudophakic bullous keratopathy". ncbi.nlm.nih.gov//. 1980-11-01. Retrieved 2015-05-21.
- ↑ "Long-term graft survival after penetrating keratoplasty". ncbi.nlm.nih.gov//. 2003-06-01. Retrieved 2015-05-21.
- ↑ "Central and Peripheral Corneal Thickness A Clinical Study". archopht.jamanetwork.com//. 1968-01-01. Retrieved 2015-05-21.
- ↑ "Human corneal anatomy redefined: a novel pre-Descemet's layer (Dua's layer)". ncbi.nlm.nih.gov//. 2013-05-25. Retrieved 2015-05-21.
- ↑ "Post operative Spectral Domain Optical Coherence Tomography evaluation of pre-Descemet's endothelial keratoplasty (PDEK) grafts" (PDF). tsos.co.in//. 2015-01-01. Retrieved 2015-05-21.
- ↑ "PDEK, New inner-layer cornea transplant technique - A State of Sight #92". eyeporter.com/. 2014-11-04. Retrieved 2015-05-21.
- ↑ "Eye transplant: PDEK technique is gaining popularity, expert says". timesofindia.indiatimes.com///. 2014-07-06. Retrieved 2015-05-21.