View clinical trials related to Diabetic Macular Edema.
Filter by:Phase III clinical study of the efficacy and safety of 9MW0813 and aflibercept (EYLEA®) in patients with diabetic macular edema (DME) in a multicenter, randomized, double-blind, parallel active-controlled study.
This study is designed to investigate treatment response in treatment-naïve underrepresented patients with diabetic macular edema (DME) who are treated with faricimab. The study population will consist of participants ≥18 years of age who self-identify as Black/African American, Hispanic/Latino American, or Native American/Alaska Native/Native Hawaiian or other Pacific Islander; in addition, a cohort of Asian Indian participants will be enrolled in India.
Anti-vascular endothelial growth factor therapy is the major intervention for treating ischemic retina diseases. According to FDA and China Food and Drug Administration, Ranibizumab, Aflibercept, and Conbercept are major types of anti-vascular endothelial growth factor therapy drugs. In the current study, the primary aim is to observe the visual acuity, anatomy effect of anti-vascular endothelial growth factor therapy in the real-world setting.
Phase III clinical study to evaluate the efficacy, expressed as improvement in visual acuity in patients suffering diabetic macular edema after one year of treatment with PRO-169, compared to treatment with Lucentis® (ranibizumab).
Comparison of high-resolution optical coherence tomography (High-Res-OCT) to conventional imaging modalities for the diagnosis of eye diseases
Patients who respond to anti-VEGF therapy but with refractory retinal and choroidal neovascularization diseases including neovascular age-related macular degeneration (nAMD), diabetic macular edema (DME), and retinal vein occlusion-Macular edema (RVO-ME).
In 2013, it was estimated that 16% (7.5 million) of all Egyptian adults between the ages of 20 and 79 years have type 2 diabetes and 2.6 million have diabetic retinopathy. A small pilot study looking at 323 patients with previously diagnosed diabetes mellitus (DM) and 183 patients with newly diagnosed DM found that the prevalence of diabetic retinopathy (DR) was 48.3% and 10.4% in each group respectively. By 2035, the Middle Eastern Region and Egypt is projected to have an over 96% increase in the diabetes population. Ultrawide field (UWF) imaging is a novel technology that allows the visualization of approximately 82% of the retina in a single image. Its use in diabetic retinopathy (DR) has been widely explored both as a diagnostic as well as a screening tool. Using this technology, more of the peripheral retina can be readily visualized allowing significantly greater hemorrhages/microaneurysms, intraretinal microvascular abnormalities and non-perfusion to be detected. UWF imaging in patients with DM allowed the identification of a distinct sub-set of eyes with lesions that are predominantly distributed in the peripheral retina. Eyes with significantly greater DR lesions in the extended peripheral fields compared to their respective ETDRS fields are said to have predominantly peripheral lesions or PPL. Eyes with PPL are at greater risk of progressing to more advanced DR and developing proliferative diabetic retinopathy (PDR) after 4 years of follow up. The increased risk of vision threatening complications in eyes with PPL has made the identification of these eyes an essential part of DR evaluation and screening. Furthermore, the presence of lesions in the peripheral retina results in a more severe DR grade in approximately 20% of eyes thereby making this tool more accurate at grading DR severity. A recent DRCR retina network multicenter study established earlier findings confirming the validity of this tool in DR management. I-care Ophthalmology Center will acquire the first UWF device in Egypt, the Optos California (Optos Plc, Dunfermline). Scanning laser ophthalmoscopy UWF imaging has been approved by both the FDA and EMA since 2011. Patients with DM, with or without known DR, will be imaged using the UWF imaging device both for diagnosis and screening purposes at I-care Ophthalmology center after informed consent. These images will be graded for the level of retinopathy and the presence/absence of PPL by certified trained graders. Internal validation and continuous quality control will routinely be conducted. Patients with vision threatening retinopathy (moderate non-proliferative diabetic retinopathy or worse, or the presence of diabetic macular edema) will be instructed to come back for further retinal evaluation and ancillary testing. Patients with mild retinopathy will be instructed to come for yearly follow up imaging. The expected duration for data collection will be 5-years, with interim data analysis on a yearly basis. The design although cross sectional, will have a prospective sub-analysis group in patients who have repeat imaging. Data collection and imaging will be conducted in Egypt and anonymized deidentified data will be shared with the Joslin Diabetes Center, Harvard Ophthalmology Department for joint research purposes. Data will be analyzed for the prevalence of DR and the distribution of DR severity levels in the studied population. In addition, the presence and absence of PPL and its association with DR progression will be studied. Non-modifiable (duration of DM, age of onset, type of DM etc.) and modifiable risk factors (HbA1c, hypertension, hyperlipidemia etc.) for increased risk of DR progression will also be analyzed. Sensitivity analysis will explore the sensitivity/specificity of initial DR grading compared to trained retina specialists.
Diabetic macular oedema (DME) is the main cause of visual impairment (or visual acuity) in patients with diabetic retinopathy, as it leads to progressive thickening of the retina, which in the long term leads to progressive death of the photoreceptor cells. It is therefore important to continue to treat macular oedema that has been progressing for several months or even years (resistant DME). The management of DME necessarily involves controlling diabetes (improving glycated haemoglobin levels) and blood pressure, but this is often not enough. Thus, when DME is significant and leads to a decrease in visual acuity, treatments are administered directly into the eye (intravitreal injections). For some years now, corticosteroids have been injected into the vitreous body (the gel that fills the eyeball) through the white of the eye for their anti-inflammatory properties. Indeed, these drugs improve the permeability of the retinal vessels and thus reduce oedema. These intravitreal implants are most often used in patients who have already undergone cataract surgery (pseudophakic) because corticosteroids also tend to aggravate a cataract. Currently, there are two implants containing corticosteroids that can be injected: the dexamethasone implant and the fluocinolone acetonide implant. These two implants have different properties, particularly with regard to their duration of action. Today, the overall management at 3 years and the quality of life associated with the treatments deserve to be evaluated. This study is the first multicenter controlled trial comparing the two reference corticosteroid treatments in terms of overall cost of treatment and follow-up and patient quality of life, while considering their efficacy and side effects. This evaluation will make it possible to precisely define the respective place of each implant in the management of resistant DME.
The duration of diabetes is directly related to eye complications. Diabetic retinopathy affects 80 percent of those who have had diabetes for 20 years or more. At least 90% of new cases can be reduced with proper treatment and monitoring of the eyes. The longer a person has diabetes, the more likely it is to develop diabetic retinopathy. Each year in the United States, diabetic retinopathy accounts for 12% of all new cases of blindness. It is also the leading cause of blindness in people between the ages of 20 and 64. The most important complication of diabetes leading to vision loss is diabetic retinopathy. Depending on this, macular edema, bleeding into the retina and vitreous,neovascular glaucoma can cause blindness. Diabetic retinopathy (DR) is a leading cause of vision-loss globally. Of an estimated 285 million people with diabetes mellitus worldwide, approximately one third have signs of DR and of these, a further one third of DR is vision-threatening DR, including diabetic macular edema (DME). Diabetic retinopathy is a retinal disease that can often be stopped with early diagnosis, but if neglected, it can lead to severe vision loss, including permanent blindness. Diabetes has high morbidity and there are millions of people who should be screened for diabetic retinopathy (DR). Annual eye screening is recommended for all diabetic patients since vision loss can be prevented if DR is diagnosed in its early stages. Currently, the number of clinical personnel trained for DR screening is less than that needed to screen a growing diabetic population. Therefore, the automatic DR screening system will be able to screen more diabetic patients and diagnose them early. EyeCheckup is an automated retinal screening device designed automatically analyze color fundus photographs of diabetic patients to identify patients with referable or vision threatening DR. This study is designed to assess the safety and efficacy of EyeCheckup. The study is a single center study to determine the sensitivity and specificity of EyeCheckup to diabetic retinopathy. EyeCheckup is an automated software device that is designed to analyze ocular fundus digital color photographs taken in frontline primary care settings in order to quickly screen for diabetic retinopathy (DR).
This is an open label dose-escalation study to evaluate the safety and treatment benefits of MS-553 in treatment-naive diabetic retinopathy patients with central involved macular edema. Fifteen subjects with diabetic macular edema will be enrolled into each of three dose cohorts and will receive oral administration of MS-553 for 8 weeks.