Microsoft Word - 4. Haroon Tayyab


188      Vol. 28, No. 4, Oct – Dec, 2012 Pakistan Journal of Ophthalmology 

Original Article 
 

Modified Technique of Four Point Scleral 
Sutured Posterior Chamber Intraocular 
Lens Without Scleral Flaps 
 
Haroon Tayyab, Muhammad Ali Haider, Tehmina Jahangir 
Sana Jahangir, Samina Jahangir, Akhwand Abdul Majeed 
 

Pak J Ophthalmol 2012, Vol. 28 No. 4 
 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  . .  
See end of article for 
authors affiliations 
 
…..……………………….. 
 
Correspondence to: 
Haroon Tayyab 
House # SUH-24, Askari XI, 
Cobbe Lane, Near Qasim 
Market, Rawalpindi 
 
 
 
 
 
 
 
…..……………………….. 

Purpose: To report the visual outcome, safety and complication profile of four 
point scleral sutured posterior chamber intraocular lens without sclera flaps. 
Material and Methods: This prospective interventional study comprised 21 eyes 
of 21 aphakic patients who were admitted in Ophthalmology ward of Jinnah 
Hospital Lahore from April 2010 to August 2011 for secondary intraocular lens 
implantation using four point scleral fixation technique. Three follow up visits 
were scheduled starting at 1st post operative day, 1st and 5th post operative 
months. 
Results: Twenty one eyes of 21 patients, 12 male and 9 female, underwent four 
point scleral fixation of posterior chamber intraocular lens with custom 
modification in intraocular lens design. At 5th month follow up, 18 patients had 
Best Corrected Visual Acuity of 6/12 or better. Two patients had cystoid macular 
edema and one had tilted intraocular lens. No patient had any sign of suture 
erosion, elevated intraocular pressure or intraoperative bleeding. 
Conclusion: Four point scleral fixation without scleral flaps is a safe technique 
of intraocular lens implantation in aphakic patients. 

 
osterior capsular (PC) rupture is one of the 
most frequent complications during 
phacoemulsification surgery1. Visual 

rehabilitation of an aphakic eye becomes a challenging 
situation for the surgeon. Common therapeutic 
options available for such a situation include aphakic 
spectacles, contact lenses, anterior chamber intraocular 
lens (AC IOL), scleral fixated posterior chamber 
intraocular lens (PC IOL) and refractive corneal 
surgery2. In patients with bilateral aphakia, aphakic 
spectacles remain safest and most cost effective 
solution but patients are optically intolerant to aphakic 
spectacles3. Contact lens is a better optical solution for 
aphakia but intolerance, care and cost pose a 
significant problem to patients of middle and late age 
groups in our setup. AC IOLs provide a quick and 
readily available answer to aphakia, but they have 
been associated with a myriad of complications like 

glaucoma secondary to angle damage and pupil block, 
hyphaema, pigment dispersion and persistent anterior 
uveitis4. 

Scleral fixation of PC IOL is a suitable option for 
aphakic patients who are optically dissatisfied with 
aphakic spectacles and for those who cannot undergo 
expensive refractive surgery. 

Scleral fixation of PC IOL was first reported by 
Girard5 in 1981 and then was later improved on by 
Malbran6 and colleagues in 1986. American Academy 
of Ophthalmology sponsored report by Wagoner and 
colleagues concluded that scleral fixation of PC IOL is 
a safe and effective technique in adults with aphakia 
with minimal or no capsular support7. 

Major problems with scleral fixation include tilting 
of intraocular lens (IOL) and questionable long life of 
the suture material used. Four point scleral fixation of 

P 



MODIFIED TECHNIQUE OF FOUR POINT SCLERAL SUTURED POSTERIOR CHAMBER INTRAOCULAR LENS 

Pakistan Journal of Ophthalmology Vol. 28, No. 4, Oct – Dec, 2012      189 

PC IOL is a novel technique for correction of aphakia 
in children and adults8. Recently Almashad and 
colleagues conducted a case series of four point scleral 
fixation of PC IOL without scleral flaps and concluded 
that this technique reduces the operation time, 
achieves good centration and stability of the IOL, and 
minimizes postoperative suture – related compli-
cations8. 

We conducted a similar case series utilizing 
recommended surgical steps of four point scleral 
fixation with few modifications regarding the IOL. 

 
MATERIAL AND METHODS 
This prospective interventional study was conducted 
in Ophthalmology department of Jinnah Hospital 
Lahore from April 2010 to August 2011. Twenty one 
aphakic patients were enrolled for four point scleral 
fixation of PC IOL after meeting the inclusion and 
exclusion criteria. Inclusion criteria consisted of 
following: improvement of best corrected visual acuity 
to ≥ 6/36, age more than 50 years, patients unable to 
or intolerant to contact lens and aphakic spectacles, no 
significant anterior segment structural abnormality 
and no active uveitis. Patients were excluded from the 
study based on the following criteria: patients with 
only eye, active or old vitreoretinal pathology 
threatening to compromise immediate and long term 
visual results of this surgery, patients with diabetic 
clinically significant macular edema, patients with 
cystoid macular edema and patients with active 
adnexal diseases like blephritis or nasolacrimal duct 
pathologies. An informed consent was obtained where 
all risks and benefits of this procedure were explained 
to patients. Approval from hospital’s ethical 
committee was officially sought. 

Patients were recruited from the outpatient patient 
department (OPD) after undergoing complete ocular 
and systemic evaluation including best corrected 
visual acuity, intraocular pressure measurement, 
complete anterior and posterior segment evaluation 
using slit lamp and indirect ophthalmoscopy. A 
detailed medical history was taken to rule out 
uncontrolled diabetes, hypertension, asthma, 
orthopnea and history of seizures and tremors. 

Broad spectrum topical antibiotic was started 1 
day before surgery. Biometry was performed using 
Ocuscan by Alcon (Fort worth, Texas). 

All surgeries were performed by a single surgeon 
under local anesthesia. Local anesthesia consisted to 

equal proportion mixture of Lignocaine 2% and 
Bupivacaine 0.5%. 

 
Surgical Technique 
Patients were prepared and draped following 
standard protocols for routine cataract surgery 
ensuring instillation of 5% Povidone Iodine on ocular 
surface and fornices for 3 minutes. Limited anterior 
vitrectomy was performed for removal of vitreous 
from anterior chamber, pupillary plane and from the 
plane of posterior chamber (anticipated location of 
IOL placement). Limited conjunctival peritomy 
centered at 1:30 and 7:30 clock hours was performed. 
Hemostasis on scleral bed was achieved through 
bipolar wet field cautry. 3mm long partial thickness 
(2/3 scleral depth) scleral grooves were made at 1:30 
and 7:30 clock hours using 15° phaco knife. These 
scleral grooves were positioned exactly 0.75mm 
behind posterior surgical limbus to avoid damage to 
vascular portion of ciliary body (Fig 1a).  A 10° bent 
tip 27 gauge needle was passed vertically down from 
one edge of 7:30 clock hour scleral groove. A 10/0 
prolene suture with straight needle was passed 
vertically into posterior chamber half way through its 
length 180° opposite to 27 gauge needle; using 1:30 
clock hour scleral groove (Fig 1b). 10/0 prolene needle 
was engaged in the lumen of 27 gauge needle and 27 
gauge needle was carefully withdrawn (Fig 1c). This 
resulted in a single strand of 10/0 prolene spanning 
from 1:30 to 7:30 clock hours in the posterior iris plane 
(Fig 2a). The bent tip of 27 gauge needle ensured that 
10/0 prolene needle does not slip out during its 
withdrawal from the globe. Special attention was paid 
not to damage any intraocular structures during these 
maneuvers including iris, ciliary body and retina. An 
identical procedure was repeated from the other end 
of both scleral grooves (Fig 2b). Now we had 2 strands 
of 10/0 prolene spanning the posterior iris plane 
(Fig.  2c). 

At this stage, 6.5 mm optic diameter PMMA 
intraocular lens was prepared to be tied to 10/0 
prolene. The haptics of IOL were bent from their edges 
by a length of 1 mm using a squint hook heated on a 
spirit lamp (Fig 3b). This modification (Haroon’s 
Technique) from standard technique was introduced 
to counter two issues. One, the lack of ready 
availability of standard scleral fixation IOLs in 
required powers. Secondly, to ensure the prolene knot 
does not slip from the haptic during postoperative 
period. 



HAROON TAYYAB, et al 

190      Vol. 28, No. 4, Oct – Dec, 2012 Pakistan Journal of Ophthalmology 

One strand of 10/0 prolene was retrieved using 
standard IOL dialer through a near clear corneal 
shelved incision (Fig 3a). After dividing the 
exteriorized 10/0 prolene into two equal halves, its 
ends were tied to the haptics of IOL (Fig 3b). Similar 
routine was repeated for the second strand of 10/0 
prolene (Fig 3c). This time around, special care was 
taken not to entangle the sutures and ensure careful 
placement of sutures at their appropriate places on 
IOL haptics. Corneal incision was enlarged to 7mm 
using phaco knife and IOL was inserted in the eye 
while performing controlled tractions on the exposed 
edges of 10/0 prolene. Knots were tied resulting in 
complete burial 10/0 prolene in the scleral grooves 
(Fig 3d). Corneal incision was secured using 10/0 
Ethilon and peritomies were closed using 6/0 Vicryl. 

Patients were started on routine post operative 
topical and systemic medications and were discharged 
on the same day. They were called back on 1st post 
operative day and then 1st and 5th post operative 
month. 
 
RESULTS 
21 eyes of 21 patients underwent four point scleral 
fixation of PC IOL without scleral flaps during the 
mentioned period of this interventional study. All 
patients fell in the age range of 50 to 75 years with 
mean age of 63 years. 12 (57%) patients were male and 
9 (43%) were female. 10 (48%) patients had their right 
eye operated while 11 (52%) patients had surgery done 
on their left eye. All of these patients had a primary 
complicated extra-capsular cataract extraction (ECCE) 
or phacoemulsification for age related cataracts 
resulting in minimal or no capsular support left, such 
that IOL could not be implanted at the time of primary 
surgery. Adequate time was given to all patients to 
recover from their primary complicated surgery before 
 

 

 
(a) (b) (c) 

 

Fig 1: (a) shows 3 mm long partial thickness scleral 
grooves located 0.75mm away from surgical limbus. 
(b) shows entry of 10/0 prolene straight needle 
(Green) from 1:30 clock hour and 27 gauge needle 
(Blue) at 7:30 clock hour. (c) shows 10/0 prolene 
straight needle (Green) engaged in the lumen of 27 
gauge needle (Blue) while the needle is being 
withdrawn from the globe. 

 

 
(a) (b) (c) 

 

Fig 2: (a) shows a single strand of 10/0 prolene suture 
spanning the peripupillary plane. (b) shows the 
second needle pass from the other end of scleral 
groove. (c) shows 2 strands of 10/0 prolene suture 
spanning the peripupillary plane. 

 

 
 

 (a) (b) (c) (d) 
 

Fig 3: (a) shows one strand of 10/0 prolene being 
withdrawn from corneal incision with help of IOL 
dialer. (b) shows cut ends of prolene being tied to the 
haptics of IOL. It also shows that the edges of IOL 
haptics are bent 1mm from the ends. (c) shows 2 
strand of 10/0 prolene suture being tied to the haptics. 
(d) shows implanted IOL in posterior chamber plane 
with 10/0 prolene knot securely buried in the scleral 
groove. 



MODIFIED TECHNIQUE OF FOUR POINT SCLERAL SUTURED POSTERIOR CHAMBER INTRAOCULAR LENS 

Pakistan Journal of Ophthalmology Vol. 28, No. 4, Oct – Dec, 2012      191 

secondary IOL implantation was contemplated. 
Descriptive statistics are shown in Table 1. 

Seven (33%) patients had pre operative best 
corrected visual acuity (BCVA) of 6/12 or better (Table 
2). After 1st post operative month BCVA was 6/12 or 
better in 16 (76%) patients (Table 2). At the end of 5 
month follow up, 18 (86%) patients had BCVA of 6/12 
or better (Table 2). One patient (4.8%) had tilted IOL at 
5 month post operative follow up and cause was 
identified to be inadequate anterior vitrectomy done at 
the time of scleral fixation. Two patients (9.5%) had 
cystoid macular edema (CMO) at 1 month follow up 
as shown in (Fig. 4). 

Standard treatment was started for both patients; 
one patient responded to the treatment with 
improvement of BCVA at 5 month follow up to 6/18 
partial. The other patient had BCVA of 6/24 at the end 
of 5 month follow up. The mean BVCA was 
statistically significant at the end of follow-up. There 
was no reported case of intraocular bleeding, suture 
related problems like suture erosion or exposed 
suture, persistent uveitis, pigment dispersion, raised 
intraocular pressure, pupil related complications or 
endophthalmitis. Fig. 5 shows the cumulative 
improvement in BCVA at the end of 5 months follow 
up. 
 
DISCUSSION 
Four point scleral fixation is a very safe and effective 
technique for visual rehabilitation in aphakic eyes 
having minimal or no capsular support. Recent studies 
have shown that four point scleral fixation 
significantly reduces the IOL tilt related problems.8 
Tong and colleagues showed that four point scleral 
fixation is an effective method to counter aphakia 
secondary to complicated globe trauma10. Almashad 
and his colleagues performed a case series of four 
point scleral fixation without scleral flaps. They 
utilized scleral grooves similar to that we described in 
our study and concluded that this technique 
significantly reduces surgical time, IOL tilt related 
problems and suture related problems like knot 
exposure and erosion9. The results of these two studies 
are comparable. A deep scleral groove allows for easy 
concealment of 10/0 prolene knots and four point 
fixation permits ease and simplicity of knot tying. A 
comparison of 4 point versus 2 point scleral fixation 
was conducted by Fass and colleagues. He concluded 
in his study that 4 point scleral fixation of PC IOL has 
lower chances of cystoid macular edema and pigment 
dispersion glaucoma as compared to 2 point fixation.11 
Our results were comparable to this study. 

None 
85.7%

Cystoid 
Macular 
Edema 
9.5%

Titled IOL 
4.8%

Cystoid Macular Edema None Titled IOL
 

 

Fig. 4:  Shows complication profile as of four point 
sclera fixation. 
 

 
 

Fig. 5: Cumulative improvement in BCVA at 5 months. 
 

Most investigators prefer ciliary sulcus fixation 
but Apple and associates12 have shown that posterior 
chamber IOL haptics often miss the sulcus and that the 
sulcus diameter is only 11.0 to 11.5 mm, less than most 
surgeons think. Duffey and associates13 used needles 
perpendicular to the sclera to demonstrate scleral 
relationships to the ciliary sulcus and found that the 
sulcus lies only 1.0 mm posterior to the posterior 
surgical limbus in the vertical meridian and 0.5 mm 
behind the limbus in the horizontal meridian. In view 
of this, we placed sutures 0.75 mm posterior to the 
limbus in oblique meridians. Careful scleral location of 
needle entries maximized our chances for ciliary 
sulcus fixation and reducing the risk of bleeding from 
inadvertent perforation of the major arterial circle of 
the iris, which is located in the anterior ciliary body. 
Berler proposed that the only negative feature of this 



HAROON TAYYAB, et al 

192      Vol. 28, No. 4, Oct – Dec, 2012 Pakistan Journal of Ophthalmology 

 

 
 
technique is the initial confusion the surgeon faces 
when he has to handle 4 very delicate 10/0 prolene 
sutures coming out of the main incision site at the 
same time. But this initial problem is adequately 
handled with an experience of 1 or 2 cases and suture 
handling keeps on getting better with every case. 

Due to meager availability of special IOLs 
designed for the sole purpose of scleral fixation, we 
were compelled to modify the haptics of a regular (6.5 
mm optic diameter) polymethylmethacrylate (PMMA) 

IOL in such a fashion to minimize every chance of 
knot slippage from haptics in post operative period. 
This novel approach resulted in very satisfactory 
results for all the patients in this study. Four patients 
are in their second year of follow up with no 
complications like knot slippage, tilting of IOL and 
suture erosion. 

Our results of post operative BCVA were 
comparable to Almashad9 and Fass11. 

Follow up of our patients was brief (5 months) but



MODIFIED TECHNIQUE OF FOUR POINT SCLERAL SUTURED POSTERIOR CHAMBER INTRAOCULAR LENS 

Pakistan Journal of Ophthalmology Vol. 28, No. 4, Oct – Dec, 2012      193 

 initial 5 months of uneventful recovery and extensive 
review of four point scleral fixation of PC IOL 
experienced by others in the literature suggested that 
no complications need be anticipated in the near or 
long term future. 

We encourage the appropriate use of four point 
scleral fixation of PC IOL without scleral flaps and 
offer an alternate to custom made scleral fixation IOLs 
by proposing a very subtle modification of IOL haptics 
in above described fashion to avoid knot slippage. We 
offer an implantation technique that may prove 
beneficial in certain situations. 
 
Author’s Affiliation 
Dr. Haroon Tayyab 
Senior Registrar 
Jinnah Hospital Lahore 
Dr. Muhammad Ali Haider 
Medical Officer 
Lahore General Hospital 
Dr. Tehmina Jahangir 
Senior Registrar 
Jinnah Hospital Lahore 
Dr. Sana Jahangir 
Medical Officer 
Jinnah Hospital Lahore 
Prof. Dr. Samina Jahangir 
Professor and Head of Ophthalmology Department 
Jinnah Hospital Lahore 
Dr. Akhwand Abdul Majeed 
Medical Officer 
Jinnah Hospital Lahore 
 
REFERENCES 
1. Langwińska WE, Szulborski K, Broniek KK. The 

complications during phacoemulsification in patients 
with posterior polar cataract. Klin Oczna 2011; 113: 16-8. 

2. Mutoh T, Matsumoto Y, Chikuda M. Scleral fixation of 
foldable acrylic intraocular lenses in aphakic post-

vitrectomy eyes. Clin Ophthalmol. 2011; 5: 17–21. 
3. Buckley E G. Hanging by a thread: the long-term 

efficacy and safety of transscleral sutured intraocular 
lenses in children (an aAmerican Ophthalmological 
Society thesis). Trans Am Ophthalmol Soc. 2007; 105: 
294–311. 

4. Huang YS, Xie LX, Wu XM, Han DS. Long-term follow-
up of flexible open-loop anterior chamber intraocular 
lenses implantation. Zhonghua Yan Ke Za Zhi. 2006; 42: 
391-5. 

5. Girard LJ. Pars plana phacoprosthesis (aphakic 
intraocular implant): a preliminary report. Ophthalmic 
Surg. 1981; 12: 19-22. 

6. Malbran ES, Malbran E Jr, Negri I. Lens guide suture 
for transport and fixation in secondary IOL 
implantation after intracapsular extraction. Int 
Ophthalmol. 1986; 9: 151-60. 

7. Wagoner MD, Cox TA, Ariyasu RG. Intraocular lens 
implantation in the absence of capsular support: a 
report by the American Academy of Ophthalmology. 
Ophthalmology 2003; 110: 840-59. 

8. Sewelam A. Four-point fixation of posterior chamber 
intraocular lenses in children with unilateral aphakia. J 
Cataract Refract Surg. 2003; 29: 294-300. 

9. Almashad GY, Abdelrahman AM, Khattab HA, et al. 
Four-point scleral fixation of posterior chamber 
intraocular lenses without scleral flaps. Br J 
Ophthalmol. 2010; 94: 693-5. 

10. Tong JP, Luo WL, Yang CQ, Lu H: Two techniques of 
posterior chamber intraocular lens (IOL) implantation 
by a 4-point ciliary sulcus suture fixation technique 
combined with vitrectomy. Zhejiang Da Xue Xue Bao Yi 
Xue Ban. 2009; 38: 525-30. 

11. Fass ON, Herman WK. Four-point suture scleral 
fixation of a hydrophilic acrylic IOL in aphakic eyes 
with insufficient capsule support. J Cataract Refract 
Surg. 2010; 36: 991-6. 

12. Apple DJ, Price FW, Gwin T. Sutured retropupillary 
posterior chamber intraocular lenses for exchange or 
secondary implantation. Ophthalmology. 1989; 96: 1241-
7. 

13. Duffey RJ, Holland EJ, Agapitos PJ. Anatomic study of 
transsclerally sutured intraocular lens implantation. Am 
J Ophthalmol. 1989; 108: 300-9.