Case Report

Amniotic Membrane Patch Graft in Management of
Double Chamber after Deep Anterior Lamellar

Keratoplasty

Mehran Zarei-Ghanavati, MD, FICO; Mahmood Davoodabadi, MD; Ahad Shahbazi, MD

Translational Ophthalmology Research Center, Farabi Eye Hospital, Tehran University of Medical Sciences, Tehran, Iran

ORCID:
Mehran Zarei-Ghanavati: https://orcid.org/0000-0002-0679-8055

Abstract

Purpose: To describe a novel technique of amniotic membrane (AM) patch graft in
the management of double chamber treatment after big-bubble deep anterior lamellar
keratoplasty (DALK).
Case Report: A 35-year-old male patient with advanced keratoconus underwent big-
bubble DALK. Manual lamellar dissection was done due to failed big-bubble. First-day
postoperative double chamber was detected. Air bubbling and SF6 injection were tried
without any success. Double chamber resolved by fixation of AM transplantation patch
graft (1 × 1 mm) over the Descemet’s membrane perforation with fibrin glue.
Conclusion: Amniotic membrane patch graft can be used in the management of double
chamber after DALK not responsive to intracameral gas injection.

Keywords: Amniotic Membrane; DALK; Descemet Perforation; Double Chamber

J Ophthalmic Vis Res 2020; 15 (4): 571–573

INTRODUCTION

Deep anterior lamellar keratoplasty (DALK)
is a preferred transplantation technique for
advanced keratoconus. Higher graft survival is
the main advantage of DALK over penetrating
keratoplasty.[1] Big-bubble and Melles technique
are common methods for DALK. One of the major
complication of these techniques is iatrogenic
Descemet’ membrane (DM) perforation.[1] This
complication may occur during all stages of DALK

Correspondence to:

Ahad Shahbazi, MD. Translational Ophthalmology
Research Center, Farabi Eye Hospital, Qazvin Square,
Tehran, Iran.
E-mail: ahadshahbazi@yahoo.com
Received: 17-05-2019 Accepted: 14-08-2019

Access this article online

Website: https://knepublishing.com/index.php/JOVR

DOI: 10.18502/jovr.v15i4.7795

from trephination to graft suturing. The incidence
of DM perforation during DALK was reported up to
39%.[2] DM perforation may cause double anterior
chamber between donor stroma and recipient DM.

Although DM may be reattached spontaneously
with a good visual outcome in some cases,[3, 4]
surgical management of DM detachment is often
necessary. It includes injection of air or gas into
the anterior chamber, suturing DM to its position,
or even repeating keratoplasty.[5–7]

We report a novel technique of using amniotic
membrane (AM) as a patch for repairing the site of
DM perforation refractory to anterior chamber gas
injections.

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How to cite this article: Zarei-Ghanavati M, Davoodabadi M, Shahbazi A.
Amniotic Membrane Patch Graft in Management of Double Chamber after
Deep Anterior Lamellar Keratoplasty. J Ophthalmic Vis Res 2020;15:571–
573.

© 2020 JOURNAL OF OPHTHALMIC AND VISION RESEARCH | PUBLISHED BY KNOWLEDGE E 571

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Amniotic Membrane Patch Graft in Management of Double Chamber after DALK; Zarei-Ghanavati et al

Figure 1. Management of a DM perforation in a DALK case. (A) Anterior segment-OCT (AS-OCT) image showing a double anterior
chamber and detached Descemet membrane (double chamber was not resolved after two attempts of gas injection into the
anterior chamber). (B) One week after the surgery: Slit lamp photograph shows clear corneal graft with resolved double chamber.
Amniotic membrane patch graft is detectable between donor and recipient at the site of Descemet perforation.

CASE REPORT

A 35-year-old male patient diagnosed with
advanced KCN was referred to us with. He
had a complaint of gradually decreased vision in
the left eye with the best-corrected visual acuity
(BCVA) of 2/10. Rigid gas permeable lens could
not be fitted for the patient. The left eye had
the maximum keratometry of 75.4 diopters and
minimum pachymetry of 397 microns. The patient
underwent DALK with big-bubble technique. After
partial trephination of 8 mm diameter, 27-gaugue
needle attached to a 5 ml syringe of air was
advanced from the superior rim of trephination
toward paracentral zone of the cornea. During the
air bubble expansion, DM was ruptured, and air
penetrated to the anterior chamber (AC). A tear
was detected in the inferior nasal periphery of
DM in a diameter of nearly 0.3 mm. Deep stromal
dissection was achieved with Melles’ spatula and
80% air was injected in the AC at the end of
operation.

Double chamber was seen on the first day
postoperatively. There was no change in size of
double chamber after 4 days of medical treatment.
Therefore, injections of intracameral air and then
SF6 were done without any success.

We decided to patch DM perforation site with
AM graft. Under general anesthesia, all donor graft
sutures were removed and graft was put in normal
saline container. Air was injected in the AC and
DM was dried with sponge. A patch (1 × 1 mm)
of cryopreserved acellular AM (SinaCell, Iran) was

fixed over the perforation site with small amount
of fibrin glue. The same graft was sutured to the
receipt rim with 10-0 nylon separate sutures.

On the first postoperative day, mild diffuse
cornea stromal edema without noticeable double
chamber was present. At one week after surgery,
cornea was clear with the donor attached to DM
without double chamber (Figure 1). Fifteen months
after the surgery, BCVA with –4.5–4.5 × 65 was
6/10.

DISCUSSION

This case showed that grafting of AM patch
is an effective procedure in post-DALK double
chamber after failure of air bubbling. AM has
been used as a biological membrane for various
indications including chemical burns, persistent
epithelial defects, ulcers, and pterygium surgery.
Many studies have shown AM’s clinical efficacy to
stimulate wound healing, promoting epithelization,
while suppressing inflammation, angiogenesis, and
scarring. This tissue is used in two ways: (1) inlay
technique that is applied as a permanent basement
membrane substitute and (2) onlay technique that
is temporarily placed on the ocular surface.[8, 9]
In this case, we used AM as a patch to seal
the DM perforation site as a new indication for
AM.

Although, the literature suggests air injection for
the management of double chamber, some
studies have reported that the air or gas

572 JOURNAL OF OPHTHALMIC AND VISION RESEARCH VOLUME 15, ISSUE 4, OCTOBER-DECEMBER 2020



Amniotic Membrane Patch Graft in Management of Double Chamber after DALK; Zarei-Ghanavati et al

bubble can cause pupillary block with a fixed
dilated pupil (Urrets–Zavalia syndrome), anterior
subcapsular lens opacities, and endothelial
cell loss more than 20%.[10] Furthermore,
tamponade of inferior DM perforation with gas
is a challenging issue. The use of fibrin glue
application was successful in sealing the DM
perforation.[11] Another report described that
stromal patch graft can be used in combination
with fibrin glue after the failure of glue application
alone.[12]

In our case, we observed perforation of DM
at inferonasal area during big-bubble technique.
The aqueous then penetrated the space between
DM and graft stroma. There was persistent double
chamber even after air and SF6 injection. Only after
AM patch graft, the perforation site was closed
and double chamber resolved. AM will not prevent
from good apposition of DM and posterior surface
of cornea because it is very thin and smooth
in comparison to stromal patch. Moreover, it will
remain longer than fibrin glue alone to stop any
leakage from the perforation site and increase the
success rate. However, there are some limitations
for the application of AM patch in sealing of
the DM perforation. Some or all sutures should
be removed to put AM over the perforation site
and glue it. We also observed interface haziness
due to AM remaining until the last follow-up (15
months). Therefore, AM patch cannot be used if
the DM perforation site is located in the optical
zone.

In summary, it seems that the application of AM
patch to seal non-central perforations of DM is
helpful to manage double chamber after DALK not
responsive to air bubbling.

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