Proliferative Diabetic Retinopathy Clinical Trial
Official title:
Intravitreal Bevacizumab (Avastin) Pretreatment for Reducing Intraoperative and Postoperative Preretinal Hemorrhage in Primary Diabetic Vitrectomy With Silicone Oil Infusion
Treatment of severe proliferative diabetic retinopathy (PDR) may require the use of silicone
oil for long-term retinal tamponade to prevent recurrent retinal detachment. Massive
bleeding during surgery before proper release of traction and peri-silicone oil
proliferation after surgery were major causes of surgical failure. The likelihood of
reproliferation rises in the presence of significant preretinal blood. It is therefore
crucial to reduce intraoperative and postoperative preretinal hemorrhage in complicated
diabetic vitrectomy with silicone oil infusion.
Intravitreal avastin has been noted to induce rapid regression of retinal and iris
neovascularization in proliferative diabetic retinopathy. Further, presurgical
administration of intravitreal avastin may reduce intraoperative bleeding during membrane
dissection in PDR with traction retinal detachment. The pretreatment of avastin may be
particularly beneficial in the treatment of severe active fibrovascular proliferation by
decreasing the severity of intraoperative and postoperative intraocular hemorrhage, leading
to better surgical outcome and early visual rehabilitation.
We conduct a prospective study to evaluate the effect of avastin on the severity of intra-
and post-operative bleeding, frequency of recurrent bleeding, and anatomical and functional
outcome in eyes with severe active PDR undergoing vitrectomy with silicone oil infusion.
From January 2007 to June 2007, consecutive patients undergoing primary pars plana
vitrectomy with silicone oil infusion for complications of proliferative diabetic
retinopathy will be recruited for the prospective study. The selection criteria are: 1)
anticoagulant therapy has not been used prior to surgery or during post-operative follow-up
period; 2) no medical history of blood diseases associated with abnormal blood coagulation
is present. Active PDR is defined as visible large new vessels within the proliferative
tissue with fresh preretinal and/or vitreous hemorrhage. Decision of silicone oil infusion
will be made before surgery when potential creation of multiple breaks or incomplete
traction release is anticipated during surgery due to severe vitreoretinal adhesion. The
morphological criteria set for silicone oil infusion are: severe active fibrovascular
proliferation with broad vitreous attachment around the disc, arcade and extending to the
periphery in at least 2 quadrants (≥grade 5 in Eliott's grading system);8 presence of
macular-off traction or combined traction and rhegmatogenous retinal detachment.
Individual recruited patient will be randomly assigned to one of the two groups: group 1
will receive intravitreal injection of 1.25 mg of avastin (0.05 ml) 7 to 9 days before
vitrectomy; group 2 will not receive avastin pretreatment. Standard 3 port pars plana
vitrectomy will be performed followed by silicone oil (5000 CS) infusion. A total of 30
cases (15 in each group) will be recruited.
After surgery, patients will be kept in a prone position overnight, then allowed to lie on
either side during sleep thereafter, but maintained a head-down position during waking hours
for 2 weeks. Ophthalmological examinations will be performed in the first 4 days after
surgery, then weekly for 4 weeks, biweekly for 1 month, and then monthly for at least 3
months.
The preoperative, intraoperative, and postoperative data will be collected for each patient.
These demographics and clinical findings include age, gender, study eye, types and duration
of diabetes mellitus, systemic diseases such as hypertension, renal insufficiency (24 hours
creatinine clearance estimated by Cockcroft and Gault equation), degree of intraoperative
bleeding, duration of the surgery, combined lens extraction, and the use of scleral buckle.
Data regarding the extent of preretinal blood in the first postoperative day; time,
duration, frequency and treatment of recurrent vitreous hemorrhage; and the duration of
postoperative follow-up will also be compiled. Results of ophthalmological examinations,
including best corrected visual acuity, intraocular pressure, and lens status will be
recorded.
Intraoperative bleeding will be graded in 3 levels: grade 1 is defined as minor bleeding
stopped either spontaneously or by transient bottle elevation; grade 2 is defined as
moderate bleeding resulting in broad sheaths of clots requiring endodiathermy to the
bleeding sites to stop the bleeding; grade 3 is defined as thick clot formation covering
half or more of the posterior pole or interfering with the surgical plane. Postoperative
preretinal blood will be separated into 3 grades: isolated clots with total area less than
10 disc area and without involvement of the posterior pole (grade1); broad sheaths of clots
with total area more than 10 disc area without involving the posterior pole (grade2); broad
sheaths of clots with total area more than 10 disc area and with involvement of the
posterior pole (grade3). Any noticeable increase of preretinal blood will be defined as
recurrent hemorrhage.
The severity of intraoperative bleeding, the extent of immediate postoperative preretinal
blood, reabsorption time of blood around the disc area, total reabsorption time of
preretinal blood, the rate and treatment of recurrent vitreous hemorrhage, and the change of
best-corrected visual acuity will be compared between groups 1 and 2. Visual acuity will be
graded into three levels: low (≤1 meter counting fingers), moderate (>1 meter counting
fingers, but < 20/200), and good (≥ 20/200).
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Observational Model: Case Control, Time Perspective: Prospective
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