Clinical Trial Details
— Status: Not yet recruiting
Administrative data
| NCT number |
NCT05666440 |
| Other study ID # |
VCSTvVTinPOAG |
| Secondary ID |
|
| Status |
Not yet recruiting |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
January 2023 |
| Est. completion date |
April 2023 |
Study information
| Verified date |
December 2022 |
| Source |
Mansoura University |
| Contact |
Amr M Abdelkader, MD, FRCS |
| Phone |
1004314242 |
| Email |
dramrabdelkader[@]gmail.com |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
Visco-Circumferential-Suture-Trabeculotomy versus Rigid probe Viscotrabeculotomy in Primary
Open Angle Glaucoma.
Description:
Introduction Glaucoma is the leading cause of irreversible visual loss worldwide. Primary
open angle glaucoma (POAG) is the most common type of glaucoma accounting for 74% of all
glaucoma cases (1, 2). Trabeculectomy is still the most commonly performed glaucoma surgery
worldwide (3). However, trabeculectomy has several vision-threatening complications as ocular
hypotony, choroidal detachment and bleb related infections (4). Therefore, in the recent
years, bleb independent less invasive procedures as canaloplasty (5,6), gonioscopy-assisted
transluminal trabeculotomy (GATT) (7,8) and ab externo circumferential trabeculotomy (6,9)
have become increasingly popular because of their great efficacy and excellent safety
profile. Despite the successful outcomes and the few postoperative complications of GATT in
juvenile and adult POAG, however on the downside, surgeons with less experience performing
GATT procedure may initially struggle with it. Also, GATT requires a goniolens and a
reasonably clear cornea to visualize the nasal angle. Introducing instruments into the
anterior chamber also poses an increased risk for damage to intraocular structures (10, 11).
Looking at ab externo trabeculotomy, for many years, many authors have demonstrated its
efficacy in lowering IOP in congenital (12, 13, 14), juvenile (15, 16) and adult open angle
glaucomas (6, 9, 17). Trabeculotomy ab externo techniques include conventional probe
trabeculotomy, viscotrabeculotomy (VT) (17), 360 - degree suture trabeculotomy (9) ,
viscocircumferential -suture trabeculotomy (VCST) (14) and trabeculotomy with the use of
illuminated microcatheter.(15,18). Although the illuminated microcatheter helps to cannulate
SC safely, however its cost constitutes a financial burden in many countries. VCST was proved
to be effective for reduction of IOP in PCG as it offers the advantages of performing 360
circumferential trabeculotomy with a great ease and a low cost (14). The aim of the present
study was to compare the surgical outcomes of (VCST) and rigid probe VT in patients with
POAG.
Purpose:
This study aims to compare the surgical outcomes of (VCST) and rigid probe VT in patients
with POAG.
Methods:
The study is conducted at Mansoura university ophthalmic Center. Sample size has been
calculated using Cochran's formula with a 95% confidence level and Z value of 1.95. This
comparative study was conducted on 166 eyes of 107 patients with medically uncontrolled
primary open-angle glaucoma diagnosed and operated upon in the Mansoura Ophthalmic Center of
Mansoura University, Egypt between February 2017 and December 2020. The study follows the
tenets of the Declaration of Helsinki. All patients of the study received a clear explanation
of the study design, the surgical procedures and their possible consequences and they gave
written informed consent.
Preoperative Evaluation All of the patients underwent a full ophthalmological examination,
particularly estimation of the best corrected visual acuity (BCVA) (the decimal notation was
converted to LogMAR), slit lamp examination, IOP measurement by Goldmann's applanation
tonometry, gonioscopy using Goldmann 3-mirrors goniolens for angle grading using Schaffer's
grading system and fundus examination. Visual field (VF) assessment was performed by SITA
strategy perimetry (Humphrey, central 24-2 standard strategy). Retinal nerve fiber layer
(RNFL) thickness and optic disc were evaluated using a spectral domain optical coherence
tomography (OCT; Topcon, Japan). The number of antiglaucoma medications was recorded.
Eyes with primary open-angle glaucoma, with a gonioscopically open angle, an IOP above 21 mm
Hg despite the maximally tolerated antiglaucoma medications, glaucomatous visual field
defects, and glaucomatous optic disc appearance, in the absence of any obvious cause for
glaucoma, were included in the study.
Patients with primary angle-closure glaucoma, secondary glaucomas, and who were on
anticoagulant therapy and cannot stop treatment or with media opacity that interfere with
visual field testing or OCT imaging were excluded from the study.
In patients suffering bilateral POAG (59 patients), randomization to either VCST or VT was
applied to the first operated eye while the other eye was automatically assigned to the other
procedure and included in the study. All surgical procedures were performed by the same
experienced surgeon (A.S.E.).
Surgical Technique:
Surgical techniques of both Visco-Circumferential-Suture-Trabeculotomy (VCST) and rigid probe
Viscotrabeculotomy (VT) were described previously in details.(14, 17) In
Visco-Circumferential-Suture-Trabeculotomy (VCST), exposure of the operative field through a
corneal traction suture (vicryl 6/0) placed superiorly was followed by a superior
limbal-based conjunctival flap and a paracentesis. After adequate hemostasis, a superficial
rectangular scleral flap 4×4 mm was fashioned and dissected forward toward the limbus. A deep
sceral flap (2×2 mm) was then created toward the limbus underneath the superficial flap
exposing the scleral spur and deroofing SC. Viscoelastic (Healon GV, Pfizer, NY) was
gradually injected (using a standard 30 G viscocanalostomy cannula) into the ostia of SC
(dilate SC and facilitate suture progression into the canal). Then, the 5/0 polypropylene
suture tip was cauterized into a blunt tip (to ensure atraumatic probing of SC). The tip was
inserted into the left ostium of SC using a microsurgical forceps and advanced through the
whole circumference of the canal. When the tip presented to the right ostium the AC was
filled with a viscoelastic through the paracentesis and traction was applied to approximate
both ends of the 5/0 polypropylene suture, thus creating a visco-360-degree trabeculotomy.
For the viscotrabeculotomy group, the surgical procedure involved a fornixbased conjunctival
incision followed by creation of a partial thickness (about 50% thickness) triangular (4×4×4
mm) scleral fap, followed by localization of Schlemm's canal by radial incisions straddling
the limbus. High viscosity sodium hyaluronate (Healon GV, Pfzer) was then slowly injected
into both ends of Schlemm's canal. Trabeculotomy was completed using the standard Harm's
trabeculotome (Geuder Instruments), the scleral fap was then secured tightly with interrupted
10/0 Nylon sutures and conjunctival closure ensued. For the trabeculectomy group the
fornix-based conjunctival incision was followed by mitomycin C application in a concentration
of 0.3 mg/mL for 3 min through soaked surgical sponge inserted underneath the conjunctival
fap and over the sclera posterior to the limbus then thoroughly irrigated by 200 mL of
sterile normal saline. This was followed by dissection of the scleral fap which was
rectangular (4×3 mm), followed by trabeculectomy, peripheral iridectomy and then secure
closure by 10/0 nylon sutures. Filtration was judged arbitrarily according to the surgeon's
experience and the conjunctiva was then closed securely .
For both groups postoperative treatment consisted of topical steroids (dexamethasone) and
antibiotic (ofoxacin) five times daily with gradual taper over a 5 week period.
Cycloplegia (cyclopentolate) was used 3 times daily for the first postoperative week and then
discontinued. Patients were examined on the first postoperative day and then postoperative
follow up visits were scheduled at weeks 1 and 2 then months 1, 2 and 3 and then 3 monthly
till the end of the 24th month (months 6, 9, 12, 15, 18, 21 and 24). Complications were noted
and managed accordingly. The primary outcome measure was the IOP. Secondary outcome measures
included the BCVA and number of IOP lowering medications. Success was defned as [15] an IOP ≤
18 mmHg (criteria 1), an IOP ≤ 16 mmHg (criteria 2), IOP ≤ 14 mmHg (criteria 3) and ≤ 12 mmHg
(criteria 4) and/or IOP reduction by ≥ 30% of baseline IOP (last IOP measurement immediately
before surgery) without IOP lowering medications (complete success) (qualifed success was
defned as IOP controlled according to the same criteria with/without IOP lowering
medications), without the need for further surgery for IOP reduction and without any vision
threatening complications or hypotony (IOP ≤ 5 mmHg).
Statistical analysis:
Data were analysed with IBM SPSS. Repeated measure ANOVA and paired t tests were used to
compare the preoperative and postoperative variables in each group. Assessment of the data
normality will be done using both histogram plot and Shapiro-Wilk's test. The comparison
between the two groups was done by Independent samples T test for numerical variables and
Chi-square test for categorical variables. Fisher's exact p values were chosen where there
was an expected count of less than 5. Kaplan-Meier survival curves were plotted to estimate
the mean survival time and probabilities of failure at diferent follow-up stages in the both
groups.. For all tests, P value of less than 0.05 will be considered significant.
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