Active clinical trials for "Diabetic Retinopathy"

This study is being conducted to determine if intravitreal injections of ranibizumab decrease the proportion of eyes in which vitrectomy is performed compared with saline injections in eyes presenting with vitreous hemorrhage from proliferative diabetic retinopathy.

The purpose of this study is to determine the efficacy of ocular topic antiinflammatory therapy (sodic nepafenac at 0.1% or ketorolac at 0.5%) to treat center point thickness secondary to selective photocoagulation in diabetics with clinically significant macular edema.

Background: to evaluate the 3-month efficacy of a single dose of intravitreal bevacizumab on the progression of severe non proliferative diabetic retinopathy, proliferative diabetic retinopathy and active photocoagulated diabetic proliferative by evaluation of ischemic areas and regression of retinal and disc neovasculrization. Methods: 40 patients were enrolled in a prospective, interventional study. Patients were treated with intravitreal bevacizumab 0.1ml (0.25mg). We evaluated visual acuity, neovascularization leakage points, capillary closure ischemic areas and macular edema by clinical examination and fluorescein angiography. A clinical examination was performed at baseline and days 1,14 and 30. Active leakage points were measured by fluorescein angiography at 30 days.

This study evaluates a new investigational treatment regimen of three consecutive monthly doses of ranibizumab followed by an as-needed treatment regimen, with monthly follow-up for the first three months then two-monthly follow-up until 18 months in patients with visual impairment due to diabetic macular oedema.The aim of the study is to determine if this treatment regimen is effective and safe in these patients.

The aim of this phase 2 controlled placebo study is to assess the effectiveness of Sulodexide in the treatment of non proliferative (background) retinopathy in patients with Type 1 and Type 2 Diabetes Mellitus. This is a multicentre, double-blind, randomised study involving patients affected by non proliferative (background) diabetic mild to moderate retinopathy. This study will involve 130 patients (65 for each group). At baseline visit (T0), the Investigator will grade the ocular lesions due to diabetic retinopathy according to color fundus photographs and the fluorescein angiography examination. He will subsequently send the negatives of photographs and the images -or negatives when available- of fluorescein angiography to an off-site Assessor -unaware of the Investigator assessment- nominated to confirm the quality of the images and the grade of the lesions. After positive assessment of the Investigator, at T0 the eligible patient will be blindly allocated to one of the 2 treatment groups according to a computer-generated randomisation list provided by the Sponsor. The following treatments will be administered for 360 days: A (SULODEXIDE GROUP): 50 mg a day by oral route; B (PLACEBO GROUP): Sulodexide placebo at the same schedule and for the same lengths of time as group A. Before breaking the randomisation code at the end of the study, an independent off site assessor will evaluate the photographs according to the Airlie House Classification and following modification by Early treatment Diabetic Retinopathy Study (ETDRS) and fluorescein angiography according to ETDRS.

Recently, intravitreal bevacizumab (Avastin) injection has gained popularity as a potential treatment of intraocular neovascularization (CNV) associated with age related macular degeneration and diabetic retinopathy. The efficacy of the drug is thought to be related with its pharmacologic blockade of VEGF. The purpose of this study is to determine the effect of the intravitreal bevacizumab on the fibrovascular membrane associated with proliferative diabetic retinopathy by objective histologic evaluation. The patients scheduled for vitrectomy for tractional fibrovascular membrane due to proliferative diabetic retinopathy will be randomized into two treatment groups. The one will receive conventional vitrectomy and the other group will receive intravitreal bevacizumab injection one week before the scheduled vitrectomy. The fibrovascular membrane will be excised during surgery and fixated for histologic examinations. The expression of VEGF and PEDF, a potent inhibitor of angiogenesis, will be evaluated in the fibrovascular membrane by immunohistochemistry. The results will be compared between two treatment groups.

To Demonstrate that indigenous green laser produces similar treatment effect on the retina when compared with already available green laser.

Recurrent vitreous hemorrhage after vitrectomy for complications of diabetic retinopathy is a common occurrence. The hemorrhage may appear within the first few weeks after surgery or months later. This complication may delay visual rehabilitation significantly and sometimes requires additional procedures or surgery, jeopardizing previous successful operation. The causes of bleeding are diverse. While evidence suggests fibrovascular proliferation from the sclerotomy sites or in the vitreous base may be an important source of recurrent vitreous hemorrhage, other origins of hemorrhage exist including lysed clot from residual vitreous skirt, injured retinal vessels from surgery, and incompletely removed fibrovascular tissues. The latter three conditions may be the major sources of early postoperative vitreous hemorrhage. We have shown that peripheral retinal cryotherapy along with cryo treatment at the sclerotomy sites may effectively reduce the incidence of fibrovascular proliferation at the inner surface of sclerotomy sites and prevent the late-onset recurrent vitreous hemorrhage. However, many patients still experience disturbing vitreous hemorrhage within the first two to three weeks after post-operative transient clear-up of the vitreous. We hypothesize that gas bubble within the vitreous cavity may mechanically temponade the fragile retinal vessels, and concentrate the coagulation factors in the vitreous cavity, allowing the integrity of vessel walls gradually recovers and thus preventing the occurrence of early postoperative recurrent vitreous hemorrhage. To test this hypothesis, a clinical study was undertaken to investigate the effect of long-acting gas infused into the vitreous cavity at the end of diabetic vitrectomy in the prevention of recurrent vitreous hemorrhage.

This study will compare the side effects of two treatments for diabetic macular edema, in which blood vessels in the retina (tissue that lines the back of the eye) become leaky and the retina and macula (the center part of the retina that is responsible for fine vision) swell, causing vision loss. Patients 18 years of age and older with diabetes mellitus and macular edema in one or both eyes may be eligible for this study. Candidates are screened with the following tests and procedures: Blood pressure measurement. Blood tests to measure HbA1c, a measure of the patient's diabetes control. Eye examination to assess visual acuity and eye pressure, and to examine pupils, lens, retina and eye movements. The pupils are dilated with drops for this examination. Eye photography to help evaluate the status of the retina and changes that may occur in the future. Photographs of the inside of the eye are taken using a camera that flashes a bright light into the eye. Electroretinograms (ERG) to measure electrical responses generated in the retina. Wearing eye patches, the patient sits in a dark room for 30 minutes. Then, electrodes are taped to the forehead and an earlobe. The eye patches are removed, the surface of the eye is numbed with eye drops, and contact lenses are placed on the eyes. The patient looks inside a white globe that emits a series of light flashes for about 20 minutes. The contact lenses sense small electrical signals generated by the retina when the light flashes. Optical coherence tomography to measure retinal thickness. The eye is examined with a machine that produces cross-sectional pictures of the retina. These measurements are repeated during the study to determine whether retinal thickening is improving, worsening, or staying the same. Patients with macular edema in both eyes receive laser therapy in one eye and triamcinolone injections in the other. Patients with just one affected eye are randomly assigned to receive either laser or triamcinolone treatment. Those who receive only laser therapy may later receive triamcinolone injections in the second eye if it, too, develops macular edema. For the laser treatment, the eye surface is numbed with drops and a contact lens is placed on the eye during the laser beam application. Before the treatment, patients may have fluorescein angiography, in which pictures of the retina are taken using a yellow dye. The dye is injected into a vein and travels to the blood vessels in the eye. The camera flashes a blue light in the eye and takes pictures that show the amount of dye leakage into the retina. This helps guide the laser treatment. Patients return for follow-up visits every 4 months for 3 years. If the macular edema is gone, no additional treatment is given and patients are followed as often as every 2 months. If the edema does return, additional treatments may be done at subsequent visits. Patients whose vision worsens considerably at the end of 1 year may be treated with a steroid injection, unless the other eye has also been treated with triamcinolone. For the triamcinolone injections, numbing drops, antibiotic drops, and drops to dilate the pupil, and possibly and anesthetic injection, are put in the eye before the medicine is injected into the vitreous (jelly-like substance inside the eye). Then, the patient lies on his or her back for 30 minutes before being discharged home. Patients return for follow-up visits 4 days and 4 weeks after the injection, and then every 4 months for 3 years. Patients whose edema resolves are followed as often as every 2 months. Those whose edema returns have additional injections at the 4-month visits. Patients whose condition does not improve after 1 year or whose vision worsens may undergo laser treatment.

A Phase 2, Multi-Center, Randomized, Double-Masked*, Active Controlled Study of ADVM-022 (AAV.7m8-aflibercept) in Subjects with Diabetic Macular Edema [INFINITY] *sponsor unmasked for enhanced safety monitoring as of May 2021