Abstract
Purpose:
To present a case of total Descemet's membrane detachment (DMD) after trabeculectomy and its surgical management.
Case Report:
A 68-year-old woman presented with large DMD and corneal edema one day after trabeculectomy. Intracameral air injection on day 3 was not effective. Choroidal effusion complicated the clinical picture with Descemet's membrane (DM) touching the lens. Choroidal tap with air injection on day 6 resulted in DM attachment and totally clear cornea on the next day. However, on day 12 the same scenario was repeated with choroidal effusion, shallow anterior chamber (AC), and DM touching the lens. The third surgery included transconjunctival closure of the scleral flap with 10/0 nylon sutures, choroidal tap, and intracameral injection of 20% sulfur hexafluoride. After the third surgery, DM remained attached with clear cornea. Suture removal and needling bleb revision preserved bleb function. Lens opacity progressed, and the patient underwent uneventful cataract surgery 4 months later.
Conclusion:
Scleral flap closure using transconjunctival sutures can be used for DMD after trabeculectomy to make the eye a closed system. Surgical drainage of choroidal effusions should be considered to increase the AC depth.
Key words: Descemet's Membrane Detachment, Trabeculectomy, Corneal Edema
INTRODUCTION
Descemet's membrane detachment (DMD) occurs when endothelium-DM separates from posterior corneal stroma. Although uncommon, it is a serious complication of intraocular surgery and may result in corneal stromal edema and significant loss of vision.[1] Small DMDs may resolve spontaneously, but most large detachments require interventions such as pneumodescemetopexy with air, nonexpansile or expansile gases, tamponading with ophthalmic viscosurgical device (OVD), or transcorneal suture fixation of DM.[2]
Cataract extraction is the most common surgery associated with DMD. However, management of DMD following trabeculectomy is more challenging since the eye is no longer a closed system and the tamponading agents escape through the fistula.
Herein, we present a case of total DMD following trabeculectomy also complicated by choroidal effusion and shallow anterior chamber (AC).
CASE REPORT
A 68-year-old woman presented with severe corneal edema of the right eye one day after trabeculectomy for primary open angle glaucoma. Her past medical history was unremarkable, and past surgical history was significant for uneventful trabeculectomy in the left eye one year earlier.
Preoperative data included a best corrected visual acuity (BCVA) of 20/200 in both eyes. Intraocular pressure (IOP) was 18 mmHg in the right eye with antiglaucoma medications and 10 mmHg in the left eye without medication. Central corneal thickness (CCT) was 553 µm and 560 µm in the right and left eyes, respectively. Both eyes had moderate nuclear sclerosis. Fundus examination was significant for glaucomatous optic disc cupping with cup/disc ratio of 0.75 in the right and 0.9 in the left eye.
At presentation, visual acuity had decreased to counting fingers at 0.5 meter in the right eye. Slit lamp examination revealed elevated bleb, severe corneal stromal edema, and IOP of 6 mmHg [Figure 1]. The patient was first managed conservatively with intensive steroids and hyperosmotics with probable diagnosis of DMD. The diagnosis of DMD was confirmed using anterior segment optical coherence tomography (AS-OCT) (anterior module, Topcon 3D OCT-1000, Topcon Inc., Tokyo, Japan), and the patient underwent air descemetopexy on postoperative day (POD) 3. This was unsuccessful, and the patient also developed choroidal effusion which made the situation worse due to shallow AC. AS-OCT revealed scrolled DMD touching the lens and a CCT of 1204 µm [Figure 2]. The patient underwent the 2nd reparative surgery including choroidal tap and intracameral air injection on POD 6.
Figure 1.
Severe corneal edema one day after trabeculectomy due to large Descemet's membrane detachment.
Figure 2.
Anterior segment OCT 6 days after trabeculectomy showing detached Descemet's membrane touching the lens, severe corneal edema with a thickness of 1204 μm, and shallow anterior chamber due to choroidal effusion.
The patient responded dramatically to this intervention, and the cornea was completely clear on day 7. The patient was on antibiotics, frequent steroids, and cycloplegics. However, she returned to the clinic 5 days later with decreased vision and the same scenario including shallow AC, DMD, and choroidal effusion and an elevated bleb.
As there seemed to be a vicious cycle of hypotony and choroidal effusion, the patient underwent the 3rd surgery aimed at breaking the cycle and preventing recurrent choroidal detachment. This surgery consisted of transconjunctival suturing of the scleral flap using three 10-0 nylon sutures, choroidal tap, and AC reforming using 0.3 ml of 20% sulfur hexafluoride (SF6). During injection, the tip of the injection cannula was placed on the iris in order to prevent further damage to the scrolled DM.
The eye responded dramatically to this procedure and cornea became clear the next day after the intervention. DM remained attached post operatively and gas bubble resorbed from AC within 6 days. Sutures were removed after 2 weeks, and needling bleb revision was done 1 week later. After 3 months, IOP was 13 mmHg without medication; and endothelial cell counts were 1170 and 1720 in the right and left eyes, respectively. Lens opacity gradually increased, and the patient underwent uneventful cataract surgery 4 months after trabeculectomy.
DISCUSSION
DMD is a rare but sight-threatening complication of trabeculectomy which usually remains undiagnosed during the surgery. Predisposing factors include shallow AC, accidental insertion of the instruments between stroma and DM, blunt keratomes, inadvertent injection of saline or OVD between the deep stroma and DM, or weak adhesions between them.[2] In our case, accidental insertion of the cannula and inadvertent injection of balanced salt solution (BSS) between stroma and DM seems to have been the cause of DMD.
Diagnosis of DMD on slit lamp examination may be difficult due to significant corneal edema. Ultrasound biomicroscopy (UBM) can be used successfully to detect DMD.[3] However, it has the disadvantage of being a contact method in post-trabeculectomy eyes. In contrast, AS-OCT which is a non-contact method is a very useful tool to diagnose and monitor the progress of DMD in eyes with severe corneal edema.
Whereas small DMDs may resolve spontaneously or by conservative management, large detachments frequently need to be repaired surgically.
Surgical management usually starts with intracameral injection of air and nonexpansile concentration of SF6 (15-20%). Perfluoropropane (12-14% C3F8) with longer resorption time and potential endothelial toxicity is used if reattachment fails with air or SF6. Expansile concentration (100%) of SF6 is not widely used.[2]
Other modalities include intracameral injection of OVD and transcorneal suture fixation of DM. For those unresponsive to the aforementioned interventions, Descemet'e stripping automated endothelial keratoplasty or penetrating keratoplasty may be needed.[2]
Management of DMD after trabeculectomy is more challenging compared to those after cataract surgery. The eye after trabeculectomy is not a closed system, and the tamponading agents escape through the ostium, making them less effective for attaching DM.
There are a few reports regarding management of DMD after trabeculectomy.
Liet al reported a case of DMD after trabeculectomy which was attached after 5 injections of air, gas, and OVD.[3] Wigginton et al reported a case of DMD after AC reformation for flat AC and hypotony following trabeculectomy. The cornea was clear in spite of a large DMD which resolved with conservative treatment in 6 months.[4] Rasouli et al reported a case of DMD following several AC reformations with OVD injection for management of post-trabeculectomy hypotony. This was managed by viscoelastic tamponade, full thickness 10-0 nylon sutures, and drainage of the fluid between the stroma and the DM.[5]
In the present report, large DMD after trabeculectomy, in the presence of choroidal effusion and shallow AC, was managed successfully with closure of the functional bleb by transconjunctival suturing of the scleral flap, choroidal tap, and DM tamponade with 20% SF6.
Financial Support and Sponsorship
Nil.
Conflicts of Interest
There are no conflicts of interest.
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