HDROM_8830985 1..5


Case Report
Successful Technique for Closure of Macular Hole Retinal
Detachment Using Autologous Retinal Transplant

Juan Abel Ramirez-Estudillo ,1 Geovanni Rios-Nequis ,1 Martin Jimenez-Rodríguez ,1

Hugo Valdez-Flores ,1 and Ximena Ramirez-Galicia 2

1Retina Department, Fundacion Hospital Nuestra Señora De La Luz IAP, Mexico
2Research Department, Faculty of Medicine, Universidad La Salle, Mexico

Correspondence should be addressed to Martin Jimenez-Rodríguez; martinretina@icloud.com

Received 20 May 2020; Revised 12 October 2020; Accepted 23 October 2020; Published 19 November 2020

Academic Editor: Claudio Campa

Copyright © 2020 Juan Abel Ramirez-Estudillo et al. This is an open access article distributed under the Creative Commons
Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work
is properly cited.

Macular hole retinal detachment (MHRD) for the most part develops in highly myopic eyes. Several surgical methods have been
introduced to treat MHRD. We describe our experience with the autologous retinal transplant in patient with MHRD. A 49-year-
old female presented with a 2-week history of a sudden decrease in the central vision in the right eye (RE). A 3-port, 25-gauge
pars plana vitrectomy was performed with the ILM dye staining and peeling. Endodiathermy was applied around a 1.5-disc
diameter neurosensory donor site in the supertemporal retina. The graft was cut with standard 25-gauge curved scissors.
Perfluoro-n-octane (PFO) was instilled. The free graft was gently handled until its packing into the macular hole. Two months
following the initial PPV, the macular hole was closed, and vision improved from 0.05 to 0.25 logMAR.

1. Introduction

Macular hole retinal detachment (MHRD) mostly develops
in highly myopic eyes. Since Gonvers and Machemer
reported using pars plana vitrectomy (PPV) and gas tam-
ponade in 1982 [1], several surgical methods have been
introduced to treat MHRD, such as macular buckling,
vitrectomy, and gas or silicon oil tamponade fluid with
internal limiting membrane (ILM), inverted ILM flap tech-
nique, and scleral imbrication [1–6]. In recent years, the
autologous neurosensory retinal transplant has been con-
sidered like a surgical technique in the treatment for clo-
sure of the refractory macular hole. We describe our case
with the autologous retinal transplant in patient with
MHRD.

2. Case Presentation

A 49-year-old female presented with a 2-week history of a
sudden decrease in the central vision in the right eye (RE).
The patient had no significant history of systemic disease.
At her initial visit, the best corrected visual acuity (BCVA)
was 0.05 logMAR in her RE and 1.00 logMAR in her left
eye. The slit-lamp examination of the anterior segment and
intraocular pressure were normal, and the lens status was
phakic of both eyes. A fundus examination revealed macular
hole retinal detachment in her RE, lattice degeneration, and
atrophic holes were found.

The surgery was performed under general anaesthesia,
and we elected to use no. 41 circumferential scleral buckle
owing to the fact that another predisposal lesions were found

Hindawi
Case Reports in Ophthalmological Medicine
Volume 2020, Article ID 8830985, 5 pages
https://doi.org/10.1155/2020/8830985

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https://creativecommons.org/licenses/by/4.0/
https://creativecommons.org/licenses/by/4.0/
https://doi.org/10.1155/2020/8830985


(a) (b)

(c) (d)

(e) (f)

Figure 1: Continued.

2 Case Reports in Ophthalmological Medicine



in the inferior retina. A standard vitrectomy equipment
(Constellation, Alcon Surgical, Ft. Worth, TX), Lumera 700
microscope (Carl Zeiss Germany) and NGENUITY 3D visu-
alization system (Alcon Surgical, Ft. Worth, TX) were used.
A 3-port, 25-gauge PPV was performed; after posterior hya-
loid detachment, the ILM was dyed (TissueBlue, DORC).
The ILM peeling was performed on the detached retina in a
circular fashion, pulling off approximately 1.0 disk diameters
of ILM centered on the foveal defect. We should mention
that subretinal migration of brilliant blue was detected;
opportunely, when the dye was aspirated, part of the subret-
inal fluid came out at the same time with the dye (Figure 1).
Peripheral vitrectomy with indentation was done before tak-
ing the graft.

Endodiathermy was applied around a 1.5-disc diameter
neurosensory donor site. The harvest location was selected
in the more bullous zone of the retina (superior and tempo-
ral) in order to avoid touching the choroid. The graft was
cut with standard 25-gauge curved scissors to approximately
90% of its final size to keep the tissue stable.

Perfluoro-n-octane (PFO) was instilled to completely
cover the donor site, the free graft was teared and manipu-
lated into the correct position using end grasping forceps,
and the tissue was gently handled until packing it into the
macular hole.

A fluid air exchange was performed, and subretinal fluid
was extracted through the area where the graft was taken.
Laser endophotocoagulation was applied as retinopexy in
the donor site and the predisposal lesions, and 5000 centis-
toke silicone oil was used as tamponade to the finish the
surgery.

One day after the surgery, the retinal was completely
attached, and the free graft stayed inside in the macular hole.

Two months following the initial PPV, the macular hole
was closed, and the optical coherent tomography (OCT)
showed integration of the retinal flap and partial restora-
tion of the internal plexiform layer (Figure 2). Best cor-
rected visual acuity improved to 0.25 logMAR at 2
months of the surgery.

3. Discussion

The coexistent macular hole was described in approximately
1% to 4% of cases of rhegmatogenous retinal detachment.
According to the pathological mechanisms, several surgical
methods have been introduced to the treatment and the ret-
inal reattachment rate ranged from 40% to 90% [7–10], but
the macular hole closure rate was lower, approximately 40%
(range 35%-70%) [10]. In 2015, the technique involving the
use of an autologous neurosensory retinal free flap for closure
of the refractory myopic macular hole was described (MH)
[11]; since then, several series have been published that men-
tions the complete anatomical closure of MH by OCT can
reach up to 87.8%.

In this case, single surgery achieved the retina reattach-
ment and MH closure. Although this type or surgery has
been referred [12], the technique with detached retina has
not described formerly. The presence of retinal detachment
was not a problem for the management of free graft of the
neurosensory retina; in fact, in our opinion, the subretinal
fluid due to retinal detachment facilitated the harvest by
maintaining the neurosensory retina separate from the reti-
nal pigment epithelium and helps avoiding touching the cho-
roid instead of developing an hydraulic retinal detachment
with the aid of a 38 or 41G syringe that can cause subretinal
hemorrhage under the graft or subretinal blood migration

(g) (h)

Figure 1: (a) Intraoperative digital photography showing subretinal migration of brilliant blue during dye staining. (b) The internal limiting
membrane has been removed and is grasped with the vitreous forceps. Notice the absence of blue coloration at the macular area at the region
of internal limiting membrane ablation. (c) Endodiathermy was applied around a 1.5-disc diameter neurosensory retina. (d) Injection of the
perfluoro-n-octane in the retinal interface. (e) The graft cuts were linear, being a square graft. (f) Image showing free graft packing inside the
macular hole. (g) A fluid air exchange was performed, and subretinal fluid was extracted through the area where the graft was taken. (h) Laser
around the area where the graft was taken.

3Case Reports in Ophthalmological Medicine



causing toxicity. 5000 centistoke silicon oil was used because
the patient was not able to stay in the city; aside, it allowed us
to keep up the graft by OCT image with better quality than
SF6 bubble.

4. Conclusions

According to the evolution of this case, we believe it is
possible to initiate a series of patients with this technique

(a) (b)

(c) (d)

(e) (f)

(g)

Figure 2: (a) Fundus photo RE shows macular hole retinal detachment. (b) Preoperative optical coherence tomography (OCT) demonstrates
macular detachment with full-thickness macular hole. (c) One day after surgery, the foveal contour had improved by the free graft. (d) OCT
postop 1 day and the hyperreflective retinal flap are visualized in place over the MH. (e) Color photograph of the fundus of the right eye two
months after the autologous retina transplant shows retina reattachment. (f) One month postoperatively, there was significant integration of
the retinal flap with improved architecture of the inner retinal layers, and some hyperreflective lines show the graft.(g) At 2 months
postoperatively, there was significant integration of the retinal flap.

4 Case Reports in Ophthalmological Medicine



in order to consider autologous retinal transplant as a first
therapeutic possibility in the retinal detachment associated
with a macular hole.

Data Availability

The data used to support the findings of this study are
included within the article.

Disclosure

The research did not receive any specific funding, although
the Hospital Nuestra Señora de la Luz allowed its facilities
for exploration, surgery, and patient monitoring.

Conflicts of Interest

The authors declare no conflict of interest in the aims for this
article.

References

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[3] E. H. Ryan, C. T. Bramante, R. A. Mittra et al., “Management
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[10] F. U. M. I. T. A. K. A. ANDO, N. O. R. I. O. OHBA, K. O. U.
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[11] D. S. Grewal and T. H. Mahmoud, “Autologous Neurosensory
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[12] D. S. Grewal, S. Charles, B. Parolini, K. Kadonosono, and T. H.
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5Case Reports in Ophthalmological Medicine


	Successful Technique for Closure of Macular Hole Retinal Detachment Using Autologous Retinal Transplant
	1. Introduction
	2. Case Presentation
	3. Discussion
	4. Conclusions
	Data Availability
	Disclosure
	Conflicts of Interest