View clinical trials related to Diabetic Retinopathy.
Filter by:The prevalence of diabetic retinopathy (DR) in the UK is on the rise. Within 20 years of diabetes diagnosis, nearly all people with type 1 and almost two thirds of people with type 2 diabetes (60%) have some degree of DR. NHS guidelines mandate annual DR screening in all patients aged 12 and above to prevent complications of DR. Screening for DR in England involves labour-intensive manual grading of retinal images through the teleophthalmology platform. Automated retinal image analysis systems with the use of artificial intelligence (AI) may offer an alternative to manual grading. The purpose of this study is to evaluate the performance of a portable, hand-held fundus camera with integrated artificial intelligence for diabetic retinopathy screening by comparing it against the current standard i.e diagnosis provided by trained human graders evaluating the standard photographs/ophthalmologists.
Pars plana vitrectomy (PPV) is one of the most widely used surgical therapies to proliferative diabetic retinopathy in the world. However, as a predictable consequence of PPV surgery, postoperative cataract is observed in 79%-95% of phakic diabetes retinopathy patients after PPV in 6-24 months and a subsequent cataract surgery is usually required. While, the subsequent cataract surgeries not only bring additional economy and workload burden, but also increase the surgical risks. Since the two-step surgical approach has its defects, the combination of PPV and phacoemulsification is an ideal surgical option. This study is a multi-center prospective study, aimed to evaluate the effect of PPV combined with phacoemulsification cataract surgery in phakic diabetes retinopathy patients, and make a comparation between the combined surgery and the two-step surgery in patients without severe lens opacities.
Blindness can be caused by many ocular diseases, such as diabetic retinopathy, retinal vein occlusion, age-related macular degeneration, pathologic myopia and glaucoma. Without timely diagnosis and adequate medical intervention, the visual impairment can become a great burden on individuals as well as the society. It is estimated that China has 110 million patients under the attack of diabetes, 180 million patients with hypertension, 120 million patients suffering from high myopia and 200 million people over 60 years old, which suggest a huge population at the risk of blindness. Despite of this crisis in public health, our society has no more than 3,000 ophthalmologists majoring in fundus oculi disease currently. As most of them assembling in metropolitan cities, health system in this field is frail in primary hospitals. Owing to this unreasonable distribution of medical resources, providing medical service to hundreds of millions of potential patients threatened with blindness is almost impossible. To solve this problem, this software (MCS) was developed as a computer-aided diagnosis to help junior ophthalmologists to detect 13 major retina diseases from color fundus photographs. This study has been designed to validate the safety and efficiency of this device.
This Phase 2 study is conducted to investigate the safety and efficacy of runcaciguat in the treatment of diabetic retinopathy. To assess efficacy, the retinal morphology will be investigated by 7-field color fundus photography for central assessment of the diabetic retinopathy severity score, or DRSS. Two-step DRSS improvement at 24 weeks of treatment will be the primary efficacy endpoint. DRSS assessments are repeated after completion of 48 weeks of treatment. In addition, vision threatening complications will be recorded throughout the study and assessed as secondary efficacy endpoint.
The objective of this study is to evaluate the safety and efficacy of APX3330 to treat diabetic retinopathy (DR) and diabetic macular edema (DME).
Diabetic retinopathy (DR) is the most common microvascular complication of diabetes mellitus (DM), while proliferative diabetic retinopathy (PDR) is the principal cause of severe visual loss in patients with diabetes. Since 1981, Panretinal photocoagulation (PRP) has been a standard of treatment for PDR. However, PRP can be associated with adverse effects, including visual field constriction, decreased night vision, and worsening of coexisting diabetic macular edema (DME). For this reason, some authors have advocated targeted treatment with PRP. Targeted retinal laser photocoagulation (TRP) is designed to treat areas of retinal capillary non-perfusion and intermediate retinal ischemic zones in PDR that may spare better-perfused tissue from laser-induced tissue scarring. Protocol S by Diabetic Retinopathy Clinical Research Network (DRCR.net) has shown that patients that receive ranibizumab as anti-vascular endothelial growth factor (anti-VEGF) therapy with deferred PRP are non-inferior regarding improving in visual acuity to those eyes receiving standard prompt PRP therapy for the treatment of PDR. Retinal ischemia is an important factor in the progression and prognosis of diabetic retinopathy. Regarding the effect of anti-VEGF drugs on macular perfusion, several studies have shown mixed results with an increase, decrease, or no effect on perfusion in response to anti-VEGF treatment. In many of these studies, however, patients with more ischemic retinas were not included. Fluorescein angiography (FA) was the method used to assess changes in macular perfusion after anti-VEGF injections in most of the clinical trials. Despite its clinical usefulness, however, FA is known to have documented risks. Optical coherence tomography angiography (OCTA) in macular perfusion evaluation in these cases was recommended by some investigators. Several studies have proved the reliability of OCTA in detecting and quantifying macular ischemia in diabetics. The investigators aim to compare changes in the macular perfusion in patients with PDR after treatment with anti-VEGF therapy versus TRP versus Standard PRP using OCTA.
Using Optical Coherence Tomography and ImageJ software the investigators will analyze retinal and choroidal vascular changes and their impact on retinal layers among patients with diabetes without retinopathy and patients with diabetes and retinopathy.
DMO is the most common cause of visual loss in people with diabetes. Regular injections of bevacizumab (Avastin) given as frequently as every month remain the current standard of care for centre-involving DMO; however, this regimen is impractical for many Aboriginal patients. Using Ozurdex implants every 3-6 months could be as effective as the currently used Avastin injections. In order to address this real-world problem, this study seeks to investigate whether it is possible to safely use a long-acting steroid preparation such as the dexamethasone IVT implant (Ozurdex) to manage DMO in Aboriginal patients living in Western Australia.
AEYE-DS is a software device developed to increase compliance with diabetic retinopathy screening by automatically detecting more-than-mild diabetic retinopathy from digital fundus images using Artificial Intelligence (AI)-based software. This study has been designed to validate the safety and efficacy of the device at primary care and other point of care sites.
In recent years damage to the nerve fibers in the retina has been experienced as an early sign of complications resulting from type 2 diabetes. In addition, it has been presented that people with type 2 diabetes are at increased risk of developing brain diseases, such as mild memory impairment and Alzheimer's disease, as well as mental illness in the form of depression. The eye corresponds to be a protruding part of the brain which means the brain and the eye share common features. Currently it is time and cost consuming to asses changes in the brain, but recent research has shown that patient friendly eye examinations can detect nerve loss brain diseases. Recent studies have shown that depression can also have a physiological component, which can be measured by changes in structures in the retina of the eye. In this research project, we will conduct a clinical study, to assess whether there is an association between changes in the retina of the eye (e.g. vascular structure, retinal thickness and oxygen saturation) and mild memory impairment and depression respectively in people with type 2 diabetes. The clinical study will help to clarify the possibility of including patient-friendly eye examinations in the assessment of minimal memory impairment and depression in patients with type 2 diabetes. 200 people with type 2 diabetes will be invited to participate in a clinical cross-sectional study. The Funen Diabetes Database will be used as recruitment tool. Participants will undergo a thorough eye examination as well as neuropsychological examinations for signs of mild memory impairment. They will also complete questionnaires regarding depressive symptoms. Overall, the research project will help to create awareness in this area among both healthcare professionals and patients. Early risk detection could mean better diabetes care and fewer complications, which will have a major impact on quality of life and contribute to socio-economic gains. Any findings may contribute to the discussion of individualized screening and treatment if some individuals within this group are at increased risk of developing memory impairment or depression.