Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT05739539 |
| Other study ID # |
1442022 |
| Secondary ID |
|
| Status |
Completed |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
April 1, 2022 |
| Est. completion date |
January 5, 2024 |
Study information
| Verified date |
February 2024 |
| Source |
Kasr El Aini Hospital |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
Tractional retinal detachment (TRD) that involves the macula and non-clearing vitreous
hemorrhage are the main causes of permanent vision loss in patients with diabetic retinopathy
and requires prompt surgical intervention.
Macular peeling is a surgical technique used in many retinal diseases including diabetic
retinal detachment.
Our purpose is to determine whether retinal microcirculatory changes occur after anatomically
successful diabetic vitrectomy, and whether changes in blood flow vary if ILM peeling was
done and whether changes in macular perfusion affect the final visual outcome.
The aim of this study is to non-invasively evaluate, with optical coherence tomography
angiography (OCT-A), the anatomical changes of deep and superficial vascular density in the
macula with and without macular peeling in diabetic vitrectomy.
Description:
Background and Rationale:
Diabetic retinopathy (DR) is a leading cause of blindness among the working age group with
increasing numbers of persons being affected worldwide.
The microvascular complications of diabetes result in macular leakage or exudation and
vasoproliferative retinal disease, which are the hallmarks of advanced DR. Despite treatment
of earlier stages of DR with medical therapy, several eyes will progress to require surgical
treatment.
Surgical treatment for the advanced complications of DR can range from removal of a
non-clearing vitreous hemorrhage, to more complicated surgical techniques such as in dealing
with a combined tractional and rhegmatogenous retinal detachment (TRD/RRD) or tractional
retinal detachment (TRD) involving or threatening the macula.
Tractional retinal detachment (TRD) that involves the macula is the main cause of permanent
vision loss in patients with diabetic retinopathy and requires prompt surgical intervention.
With the small-gauge vitrectomy system, anatomical success rate after pars plana vitrectomy
(PPV) is reported to be over 90%.
Macular peeling is a surgical technique used in many retinal diseases including diabetic
retinopathy, retinal detachment, macular holes, macular edema or foveal retinoschisis. The
technique is based on surgical removal of the preretinal tissue or internal limiting membrane
(ILM) in the macula.
PPV with ILM peeling has been reported to reduce retinal edema and improve visual acuity in
patients with diabetic macula edema. However there is a controversial whether ILM peeling has
benefit in patients undergoing PPV for PDR complications.
Studies found that fewer cases of epiretinal membranes and macular edema were observed
postoperatively with ILM peeling in diabetic vitrectomy but visual acuity is similar with and
without peeling.
In another recent study evaluating the benefits of ILM peeling in subjects undergoing PPV for
the treatment of diabetic vitreous hemorrhage and found that better best-corrected visual
acuity, fewer postoperative diabetic macular edema, and a lower incidence of epiretinal
membrane at 6 months when ILM peeling was performed.
Optical coherence tomography angiography (OCTA) provides a non-invasive and quantitative
approach for investigating retinal and choroidal microvasculature. The retinal vascular
plexus of healthy subjects is formed by a superficial plexus located in the ganglion cell
layer and nerve fiber layer, and a deep plexus located in the inner nuclear layers . The
foveal capillary plexus forms a ring at the margin of the fovea, producing a capillary-free
region called the foveal avascular zone (FAZ).
Our purpose is to determine whether retinal microcirculatory changes occur after anatomically
successful diabetic vitrectomy, and whether changes in blood flow vary if ILM peeling was
done and whether changes in macular perfusion affect the final visual outcome.
The aim of this study is to non-invasively evaluate, with optical coherence tomography
angiography (OCT-A), the anatomical changes of deep and superficial vascular density in the
macula with and without macular peeling in diabetic vitrectomy.
To our knowledge, there are presently no any studies evaluating OCT-A retinal vascular
changes with and without ILM peeling after diabetic vitrectomy.
Objectives:
To assess the OCT-A retinal vascular changes with and without ILM peeling in diabetic
vitrectomy patients.
- Methodology in details:
This prospective study will be conducted at Kasr Al-Aini Ophthalmology department and will
include PDR patients who are candidates for PPV which will be recruited and assessed for
eligibility for inclusion according to the above criteria.
All participants will be subjected to the following:
- Written informed consent.
- Detailed history including duration of diabetes, its treatment and glycemic control and
systemic hypertension.
- History of ocular trauma, previous ocular surgery, history of treatment with
intravitreal anti-VEGF or Argon retinal photocoagulation.
- Complete ophthalmic examination including best corrected visual acuity measurement,
intraocular pressure, slit lamp examination and fundus examination.
- Pre-operative OCT-Angiography if possible in patients having clear media.
- Patients who are candidates for PPV will be assigned randomly using simple randomization
with Microsoft Excel into one of two groups:
- Group A: PPV with ILM peeling.
- Group B: PPV without ILM peeling.
- 23-gauge PPV will be performed for patients in both groups , infusion pressure will be
between 25-30 mmHg and in case of need to increase pressure for bleeding it will be less
than 60 mmHg for no more than 5 minutes.
- Phacoemulsification & PCIOL will be done for cases with significant cataract.
- Silicone oil tamponade 1000 csk will be used for all cases. Follow up of the patients at
3 and 6 months after surgery with measuring BCVA, fundus examination, OCT-Angiography
(optovue Inc) scan area of 3x3 mm and 6x6 mm to detect vascualr density: superficial
capillary plexus (SCP), deep capillary plexus (DCP), foveal and parafoveal all quadrants
using ETDRS circles, and the foveal avascular zone (FAZ) area and acirculatory index.
- OCT for measuring central macular thickness & ganglion cell complex (GCC) will be done.
- Patients' serial numbers only will be used on data collection sheets. Data will be
entered on a computer with access limited to the researchers in order to ensure
confidentiality of patients' information.
- Intervention:
- Therapeutic intervention (please describe):
- Pars plana vitrectomy (PPV) will be performed for diabetic patients who meet the
inclusion criteria, in group A: ILM peeling will be done and in group B: PPV
without ILM peeling.
- Diagnostic intervention (please describe):
- OCT-A (optovue Inc) and OCT for measuring ganglion cell complex (GCC) will be done
3 and 6 months following surgery comparing both groups.
- Does the research involve? Human participants
- Type of consent of study participants:
Written consent
- Potential risks:
- Iatrogenic Retinal break.
- Infection.
- Elevated intraocular pressure.
- Confidentiality of data:
None of the data obtained during the study will contain any personal information that can
lead to patient identification, no personal photos for the patients will be obtained, no
names or patients' identification numbers or records will be displayed.
Sample size (number of study subjects included and justification including the clinical and
statistical assumptions supporting sample size calculation)
Total number of 36 eyes to be divided equally in 2 groups:
- Group A: 18 eyes will undergo PPV with ILM peeling.
- Group B: : 18 eyes will undergo PPV without ILM peeling.
Assuming equal number of eyes in two groups, power of study of 80%, statistical significance
alpha of 0.05 (two sided). Based on data from literature [13] calculating minimal sample size
needed to compare macular vascular density changes between two groups of diabetic vitrectomy
with and without ILM peeling to detect difference of 3 % in vascular density with SD of 3 %
using the following equation:
n= (2) (3) 2 (2.8) 2 / (3) 2 = 16 in each group
Assuming 10 % drop-out of cases the total number of cases will be 36 eyes.
Sampling technique: A convenient sample of patients with the inclusion and exclusion criteria
will be assigned into study till reaching total sample size calculated.
Statistical analysis Data analysis packages will be SPSS version 21 Qualitative data will be
presented by number and percentage , quantitative data will be presented by mean, standard
deviation, median and interquartile range . Parametric and non-parametric tests of
significant will be done chi square, Fisher exact for non-parametric data and student t test
and ANOVA test for parametric data, man whitney test and mcnemar test for non parameteric
data, Level of significance was set at p-value equal to or below 0.05.
Source of funding: (Please include source of funding even if self funding) Self funding
