82      Vol. 30, No. 2, Apr – Jun, 2014 Pakistan Journal of Ophthalmology 

Original Article 
 

Vitrectomy Combined with Scleral Buckling 
in Patients with Inferior Retinal Breaks 
 
Zubair Saleem, Nadeem Riaz, Muhammad Aftab, Muhammad Moin, Muhammad Irfan Karamat, 

Adeel Chaudhry 

 
Pak J Ophthalmol 2014, Vol. 30 No. 2 

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See end of article for 
authors affiliations 
 
…..……………………….. 
 
Correspondence to: 

Zubair Saleem 

Dept. of Ophthalmology 

Lahore General Hospital, 
Lahore 
 
 
 
 
 

…..……………………….. 

Purpose: To study the anatomical results and complications of vitrectomy with 
internal tamponade, combined with scleral buckling in patients having retinal 
detachment due to inferior break(s) 

Material and Methods: This descriptive case series study was conducted on 34 
patients having retinal detachment due to inferior break(s). 22 patients were 
male and 12 patients were female. All patients underwent vitrectomy with silicone 
oil combined with buckling. Patients were followed for six months and status of 
retina noted, along with any post-operative complications. 

Results: Successful attachment of the retina was achieved in 32 (94.12%) 
patients. Four patients (11.76%) had post-operative glaucoma, 3 (8.82%) had 
transient diplopia, while 3 out of the 13 phakic patients (23.08) developed 
cataract within six months of the surgery. 

Conclusion: Vitrectomy combined with scleral buckling is a safe and effective 
procedure to treat retinal detachment in patients having inferior retinal breaks. 

 

etinal detachment is the separation of 
neurosensory retina from the retinal pigment 
epithelium. Rhegmatogenous retinal detach-

ment involves a full thickness retinal break and 
accumulation of liquefied vitreous under the 
neurosensory retina, separating it from the retinal 
pigment epithelium1. 

Various procedures are employed to treat 
rhegmatogenous retinal detachment. All of them 
involve closing the break(s) by chorioretinal adhesion, 
either by internal or external tamponade. The choice of 
procedure is governed by many factors, primarily the 
location of the break, the amount of proliferative 
vitreoretinopathy (PVR) and the availability of 
instrumentation and expertise. 

Eyes with minimal PVR and anteriorly located 
break(s) can be successfully managed by pneumatic 
retinopexy, scleral buckle or vitrectomy while eyes 
with posterior break(s) or significant PVR need 
vitrectomy along with tamponading gas or oil2. The 
specific gravities of most of the internal tamponading 
agents are less than balanced saline solution. That is 
why oil or gas bubble floats at the top most position, 

pressing the retina and providing a tamponade for 
superior retina. However, its effect on the inferior 
retina is not enough to press the retina down to 
pigment epithelium layer and it fails to provide a 
tamponade3. This poses a problem in managing 
patients having high grade PVR and inferior breaks, 
since neither scleral buckle nor vitrectomy alone can 
keep the retina attached. 

Various studies have been conducted on which 
procedure should be carried out for such cases, with 
no general consensus. Some authors suggest carrying 
out vitrectomy with internal tamponade alone4, 
followed by strict head posture, while others have 
suggested scleral buckle and vitrectomy with internal 
tamponade combined5. The protocol for such cases in 
our department is to carry out scleral buckle plus 
vitrectomy combined with internal tamponade, and 
we would like to share our experience of the results 
and complications of this procedure. 

 
MATERIAL AND METHODS 

The study was conducted in eye department of Lahore 
General Hospital, Lahore. Patients were operated 

R 



VITRECTOMY COMBINED WITH SCLERAL BUCKLING IN PATIENTS WITH INFERIOR RETINAL BREAKS 

Pakistan Journal of Ophthalmology Vol. 30, No. 2, Apr – Jun, 2014      83 

between January 2012 to June 2013, while post-
operative examination continued till December 2013. 
Thirty four patients having primary rhegmatogenous 
retinal detachment, with inferior breaks between 4 
o’clock to 8 o’clock positions were included in the 
study. All the patients were informed about their 
inclusion in the study and a written consent was 
obtained. The study was approved from the ethical 
committee of the hospital. 

A detailed pre-operative examination was carried 
out in all patients, with their visual acuity, pupil 
reaction, intraocular pressure, slit lamp examination of 
anterior segment, slit lamp and indirect ophthalmo-
scopy of posterior segment, status of the retina, 
grading of proliferative vitreoretinopathy (PVR), 
extent of detachment and location of breaks noted. 

The exclusion criteria were: 1) patients with a past 
history of surgery for retinal detachment. 2) Patients 
with detachment due to retinal dialysis. 3) Patients 
with grade A PVR. 

All surgeries were performed by two experienced 
vitreo-retinal consultants. 360o scleral encirclement 
was performed using a silicone band – 240, anchored 
at 12-14mm from the limbus. It was supplemented 
with an appropriate segmental buckle (silicone tyre-
277) to cover the retinal break(s). A 23-G, 3-port pars 
plana vitrectomy was performed on each patient using 
Accurus vitrectomy system. Silicone oil, 1000 centi-
stokes (26 patients) or 5000 centistokes (8 patients), 
was used for internal tamponading. Laser barrage 
around the break(s) was applied in all patients. Post-
operative examination was carried out on 1st and 7th 
post operative days; and then after 1, 3 and 6 months 
and status of retina noted on each visit. 

Statistical analysis was done by using SPSS 
version 20. Descriptive statistics was used to analyse 
the data. A quantitative variable like age was 
measured by mean and standard deviation. Frequency 
and percentage was calculated for gender and surgical 
outcome in terms of retinal attachment or non-
attachment. 

 
RESULTS 

Thirty four patients fulfilling the inclusion and 
exclusion criteria were identified from January 2012 to 
June 2013. 22 (64.7%) patients were male, while 12 
(35.2%) were female (Fig. 1).The statistical analysis of 
gender is shown in table 1. The mean age of the 
patients was 32.88 with standard deviation of 13.42 
(Table 2). In 17 patients, the break was located 

inferotemporally, in 3 patients, it was located 
inferomedially, in 6 patients, it was located inferiorly 
at 6 o’clock, while 5 patients had multiple breaks 
inferiorly. No definite break could be identified in 3 
patients due to poor peripheral visibility. However, 
their inferior retinas showed diffuse degeneration and 
atrophic areas. The configuration of the detached 
retina also corresponded to the presence of an inferior 
retinal pathology (Lincoff rule), so they were 
supported with an inferior tyre and included in the 
study (Table 3). Fourteen patients had grade B PVR, 
while twenty patients had grade C PVR. Four patients 
had myopia of greater than -6 diopters while lattice 
degeneration was noted in 4 patients. 9 patients had 
pseudophakia while 11 were aphakic and one patient 
presented with dropped IOL. There was a history of 
trauma in 4 patients (Fig. 2). 

 

 

 
Successful attachment of the retina was achieved 

in 32 (94.12%) patients, while 2 had persistent 
detachment (Fig. 3). Out of the patients with grade B 
PVR (14), one developed grade C PVR but his retina 



ZUBAIR SALEEM, et al 

84      Vol. 30, No. 2, Apr – Jun, 2014 Pakistan Journal of Ophthalmology 

remained attached. The statistical representation of 
surgical outcome in terms of retinal reattachment is 
shown in Table 4.  

 

 

 

64.70%

35.29%

Males Females

 
 

Fig. 1: Gender analysis 

 

0

2

4

6

8

10

12

My
op

ia 
(>

-6
D)

La
ttic

e 
De

ge
ne

ra
tio

n

Ps
eu

do
ph

ak
ia

Ap
ha

kia

Dr
op

pe
d I

OL

Tr
au

ma

 

Fig. 2: Number of patients with risk factors for Retinal 
Detachment 

 
 The findings were further analyzed by the T-Test 
and the paired samples statistics, correlations and 
samples test are shown in tables 5, 6 and 7 
respectively. 

 Four patients (11.76%) had post-operative 
glaucoma while 3 patients (8.82%) complained of 
diplopia which resolved spontaneously. Three out of 
the 13 phakic patients (23.08%) developed cataract 
within 6 months of the surgery (Fig. 4). 

Out of the two patients with persistent retinal 
detachment following first surgery, one patient had 
successful reattachment following a second surgery, 
while the retina of one patient remained detached 
even after a second surgery. 

 

 
 
DISCUSSION 

Current surgical techniques can obtain high rates of 
anatomical and visual success in patients with retinal 
detachment6. However, the management of retinal 
detachment with inferior break(s) has been the focus 
of debate recently. The nature of the internal 
tamponading agents, due to low specific gravity than 
normal saline, does not serve to tamponade the 
inferior retina against the choroid. Some authorities 
advocate pars plana vitrectomy with internal 
tamponade alone, along with strict post operative 
posturing in cases of inferior retinal breaks in which 
buckling alone is not sufficient (e.g. high grade PVR). 
They argue that combining scleral buckling does not 
add any additional advantage over vitrectomy alone 
and poses the patient to additional risks of scleral 
buckling like diplopia7, explant extrusion, infection8 
and choroidal haemorrhage. One such argument has 
been given by Wickham and associates4. They state 

Gender analysis (percentage) 

Patients with 
Risk Factors 

for RD 



VITRECTOMY COMBINED WITH SCLERAL BUCKLING IN PATIENTS WITH INFERIOR RETINAL BREAKS 

Pakistan Journal of Ophthalmology Vol. 30, No. 2, Apr – Jun, 2014      85 

 

 

6%

94%

Attached Detached
 

 

Fig. 3: Postoperative results 

 

0

1

2

3

4

Glaucoma Diplopia Cataract Persistent

RD

 
Fig. 4: Postoperative complications 

 
that the success rate of the group of patients who 
underwent vitrectomy combined with scleral buckle 
(73%) was lower than the group of patients 
undergoing vitrectomy with internal tamponade alone 
(89%). The most common cause of treatment failure in 
vitrectomy combined with scleral buckle was noted to 
be PVR (20%, as opposed to 5% in vitrectomy alone 
group). One reason of such a high rate of PVR in 
vitrectomy combined with scleral buckling group in 

his study can be the retrospective nature of the study 
and the lack of randomization. Amount of 
preoperative PVR is a risk factor for severe 
postoperative PVR9. It is possible that relatively 
complicated cases with higher pre-operative PVR were 
treated with vitrectomy combined with scleral 
buckling, leading to high post operative PVR in this 
group. Wickham and associates also state that the 
primary break and drainage sites were treated either 
with cryotherapy or endolaser. Incidence of PVR after 
cryotherapy (25.8%) is much more than that of 
endolaser (2.2%)10. It hasn’t been mentioned what 
percentage of patients in each group received 
cryotherapy, and that can be one of the reasons for 
such a high percentage of PVR in vitrectomy 
combined with scleral buckling group. In our study, 
there were fourteen patients with grade B PVR 
preoperatively, out of which only one patient (10%) 
had developed grade C PVR after six months of follow 
up. The anatomical success rate of vitrectomy 
combined with scleral buckling was also higher (94%) 
in our study. A study by Alexander P et al5 has shown 
95% success rate with a combined procedure, without 
any sight-threatening complications. Mehmet Demir et 
al11 found a similar anatomical success rate in patients 
treated with either vitrectomy alone (96.0%) or 
vitrectomy combined with scleral buckling (95.8%). 
Similar comparable results in two groups were 
reported in a retrospective comparative case series12, 
being 98.9% for vitrectomy alone and 98.8% for 
combined procedure. Another study reported that the 
difference in the rate of secondary surgical procedure 
was similar in the two groups13. In a retrospective 
study of thirty pseudophakic or aphakic eyes who 
underwent a primary combined procedure, Qin B et 
al14 found that all retina were anatomically reattached 
after the first operation. In their retrospective series of 
512 patients who underwent primary vitrectomy for 
retinal detachment, Heimann et al15 found a 
significantly higher rate of re-detachment in patients 

Postoperative status of the retina 



ZUBAIR SALEEM, et al 

86      Vol. 30, No. 2, Apr – Jun, 2014 Pakistan Journal of Ophthalmology 

with inferior detachment. They attribute this to their 
use of relatively short-acting tamponades which are 
probably not sufficient to support the inferior retina. 
Sharma et al16 did not find any significant difference in 
outcome in two groups of patients treated with 
vitrectomy and gas alone, either with or without 
inferior break detachments. 

We did not find any significant sight – threatening 
complications of scleral buckling in our study. Similar 
conclusions have been drawn in other studies too, in 
which vitrectomy combined with scleral buckling was 
done4,5. However, some studies, in which scleral 
buckling was done alone, report potentially sight-
threatening complications of scleral buckling17,18. 

 
CONCLUSION 

Our study shows that supplementary scleral buckling 
has its role in cases with inferior retinal breaks, as it 
provides an external tamponade to inferior breaks, 
which would otherwise not be covered by internal 
tamponading agents like silicone oil or SF6 gas etc.  It 
is an effective and safe procedure that improves the 
primary success rate in such cases  

 
Author’s Affiliation 

Dr. Zubair Saleem 
MBBS ; FCPS 
Senior Registrar Ophthalmology, 
Lahore General Hospital, Lahore 

Prof. Dr. Nadeem Riaz 
MBBS; DO; FRCS; FRCOphth. 
Professor and Head of Ophthalmology Dept, 
Lahore General Hospital, Lahore 

Dr. Muhammad Aftab 
MBBS; MRCS 
Post Graduate Resident Ophthalmology, 
Lahore General Hospital, Lahore 

Prof. Dr. Muhammad Moin 
FRCS, FRCOphth, MRCophth 
Professor of Ophthalmology, 
Lahore General Hospital, Lahore 

Dr. Muhammad Irfan Karamat 
MBBS 
Medical Officer Ophthalmology, 
Lahore General Hospital, Lahore 

Dr. Adeel Chaudhry 
MBBS; MCPS 
Medical Officer Ophthalmology, 
Lahore General Hospital, Lahore 

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