Diabetic Retinopathy Clinical Trial
Official title:
Evaluation of Vitrectomy for Diabetic Macular Edema Study
The study is designed as a prospective cohort study to assess changes in visual acuity and
retinal thickening and surgical complications in subjects undergoing vitrectomy for diabetic
macular edema.
The study also aims to identify subgroups in which there appears to be a benefit of
vitrectomy and subgroups in which vitrectomy does not appear to be beneficial and to obtain
data that can be used to plan a randomized trial.
Subject will be followed through 2 years, with a primary outcome at 6 months post vitrectomy
surgery. The vitrectomy procedure will be performed based on the investigators usual care and
is not considered part of the research although the procedure performed will be collected.
Study Design The study is designed as a prospective cohort study. A randomized trial design
was considered but rejected after deciding that there was insufficient equipoise on the part
of the investigator group to randomize eyes with DME and vitreal traction to surgery or no
surgery (thus eyes which potentially may benefit most from vitrectomy would not be included),
and there was insufficient information available on the natural course or surgical outcomes
of eyes with DME but without significant traction.
A cohort study provides the opportunity to collect data prospectively using a standardized
protocol to assess the potential benefits and risks of vitrectomy. The results can be used to
determine whether proceeding with a randomized trial has merit and what the design of the
trial should be. If a randomized trial is to be conducted, the results plus the cohort study
experience can be used to help design the protocol.
Study Objectives
1. To provide information on the following outcomes in eyes with Diabetic Macular Edema
(DME) that undergo vitrectomy: visual acuity, retinal thickening, resolution of traction
(if present), surgical complications.
2. To identify subgroups in which there appears to be a benefit of vitrectomy and subgroups
in which vitrectomy does not appear to be beneficial.
3. To obtain data that can be used to plan a randomized trial.
B. Intervention Vitrectomy performed by the investigator's usual routine.
C. Duration of Follow-Up: Two years
D. Follow-up Visit Schedule Study visits for data collection at 3 and 6 months then 1, and 2
years. Additional visits follow investigator's usual routine.
E. Rationale:
There are at least two avenues of investigation that support the theoretical value of
vitrectomy for the treatment of DME, based on (1) vitrectomy for the relief of traction on
the macula and (2) vitrectomy to improve oxygenation of the macula leading to decreased
permeability with subsequent resolution or decrease in DME.
Vitrectomy to relieve biomechanical traction on the macula has been reported widely. Schepens
and coworkers discussed the role of the vitreous and vitreomacular traction in cystoid
macular edema in 1984. Nasrallah et al observed in 1988 the resolution of diabetic macular
edema in individuals with spontaneous separation of the vitreous gel from the retina. In
1992, Lewis and coworkers reported success with vitrectomy and peeling of a "thickened
hyaloid membrane" in eyes with DME that had this anatomical feature. Since this report of a
nonrandomized retrospective case series, other authors have prospectively analyzed their
series and supported the concept that relief of clear-cut anteroposterior traction, usually
in the setting of an epiretinal membrane complex and associated vitreous adherence, may
ameliorate macular thickening and edema in DME. Evaluation of these individuals and
documentation of pre and postoperative characteristics have been rendered vastly more
objective by ocular coherence tomography and the Retina Thickness Analyzer. Series using
optical coherence tomography (OCT) to image cases where vitreomacular traction is observed
and in some cases treated, has confirmed the clinical impression of mechanical forces at work
on the posterior retina and has documented the anatomic improvement with surgery. How and in
which cases OCT could refine our ability to diagnose and define clinically important
anatomical features or relationships has not been investigated. As Kaiser and coworkers have
documented, the OCT findings in the cases that have thus far come to vitrectomy in these
situations support a conclusion that the disease process has progressed very far and in many
cases the individuals have actual traction retinal detachments in their maculae. These severe
cases are the exception in the spectrum of DME: most cases of macular edema have no obvious
vitreomacular traction, but this factor has not been investigated adequately with our newer
and more sophisticated imaging techniques. It is possible that subclinical traction on the
macula exists in a large number of individuals with diabetes, whose internal limiting
membranes at the vitreomacular interface often have a thickened, hypercellular appearance and
whose vitreous gels, gradually contracting over many years, may exert subclinical but
significant traction on the compromised diabetic macular vascular bed.
The other line of reasoning and prior research that supports the possibility that vitrectomy
would help DME is that articulated by Steffanson and others indicating that posterior segment
oxygenation improves after vitrectomy. Using oxygen sensors on the retinal surface, these
investigators have shown that retinal oxygen tensions increase after the vitreous gel is
removed and the posterior segment becomes perfused by relatively oxygen-rich aqueous humor.
Supporting this conclusion is the additional observation that retinal vessels decrease in
caliber after vitrectomy, presumably in response to the improvement in hypoxia, although
confounding factors that could contribute to this decrease, such as the addition of endolaser
retinal photocoagulation, have not been ruled out. Numerous lines of investigation have
elucidated factors producing permeability in retinal blood vessels. One of the most central
of these factors is Vascular Endothelial Growth factor (VEGF), formerly known as Vascular
Permeability Factor (VPF). VEGF is known to be upregulated by hypoxia, and downregulated by
increased oxygenation. The speculated sequence of events in which vitrectomy produces
improved oxygenation of the posterior segment, leading to downregulation of VEGF, leading to
decreased vasopermeability, resulting in reduced macular thickening, is a plausible one. More
rapid clearing of growth factors in the vitrectomized eye has also been postulated as a
potential mechanism for this response.
See full protocol at drcr.net for list of references
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