View clinical trials related to Diabetic Macular Edema.
Filter by:Around the world there is an increasing incidence of diabetes mellitus, with millions of people affected. In this population, diabetic macular edema (DME) is the most common cause of visual impairment. While the visual impairment caused by EMD is variable, its early treatment can improve visual acuity and quality of life. The objective of this project is to use the new OCT-angiography technology, which evaluates macular capillary network without the need of intravenous injection of contrast, to assess macular microcirculatory network in its response to intravitreal pharmacological treatment of EMD. The resulting qualitative evaluation can be helpful in understanding the pathophysiology of visual loss associated with DME and in determining prognosis.
Age-related macular degeneration (AMD) and diabetic retinopathy are among the most common disorders causing visual disability in elderly people. AMD leads to dysfunction and loss of photoreceptors in the central retina. Neovascular AMD (nAMD) affects visual function early in the disease process. The purpose of the study is to evaluate the effect of switching from ranibizumab therapy to the current routine therapy using aflibercept in eyes with treatment naive, recurrent or persistent nAMD, treatment naive diabetic retinopathy and pretreated diabetic retinopathy. 20 patients with recurrent or persistent nAMD, previously treated with intravitreal ranibizumab for up to one year will be included in this trial. Patients will be examined in monthly intervals over 12 months follow-up. Examinations carried out will include: Best-corrected visual acuity (BCVA) using ETDRS charts at 4m distance, Reading Performance (RP), Standard ophthalmic examinations (SOE incl. funduscopy and applanation tonometry), Optical coherence tomography (OCT), Autofluorescence fundus image (AF) & red-free autofluorescence fundus image (RF), Color fundus photography (CFP), Fluorescein angiography and indocyaningreen angiography (FLA/ICG), Microperimetry (MP), as well as Non-invasive OCT based optical angiography (AngioVue).
In this double clinical trial 132 patient with the history of DME (Diabetic Macular Edema) to receive intravitreous bevacizumab at a dose of 1.25mg (44 patient) , ziv-aflibercept at dose of 1.25 mg (44 patient) , ziv-aflibercept at dose of 2.5 mg (44 patient) . The study drugs were administered as often as every 4 weeks for 3 months.monitoring of best-corrected visual acuity, CST ( Central Subfield Thickness) by OCT (Optical coherence tomography) was done from base line ,4 weeks, 8weeks after injection.
An increasing number of clinical studies on SD-OCT of ocular pathologies and potential new clinical applications has recently been published in the peer-reviewed literature. However, the successful use of SD-OCT in routine clinical use depends upon the diagnostic sensitivity, biometric accuracy and reliability of the SD-OCT machines. This prospective, comparative, observational study aims to evaluate the imaging quality and diagnostic performance of two commercially available SD-OCT machines for both the anterior and posterior segment of the eye.
The aim of this study is to investigate the conjunctival bacterial flora and antibiotic resistance patterns following serial intravitreal injections of anti-VEGF in diabetic patients, using a povidone-iodine preparation without preinjection or postinjection topical antibiotics.
Photocoagulation is the standard treatment in the focal EMCS, disrupts vascular leakage and allows the pigment epithelium remove the intraretinal fluid is effective in reducing the incidence of visual loss but can reduce contrast sensitivity and retinal sensitivity, the characteristics of the function can be reduced such as setting (location and stability) are relevant to the quality of the patient's vision parameters, reading comprehension, especially the ability, duration of diabetic macular edema, could have a significant impact on survival and / or the functional reserve of the macular cells subjected to mechanical and toxic stress-induced edema. It seems that in the treatment of patients with EMCS, photoreceptor damage occurs as a recent phenomenon, and can precede neurodegeneration retinal photoreceptor loss, whereby visual function can be decreased. An adjunctive treatment as Dorzolamide facilitating effect helping resorption of intraretinal fluid through EPR and reduce adverse events that is the loss of contrast sensitivity and retinal sensitivity, response time of photocoagulation treatment could be reduced to the patient, because the rate of resorption of intraretinal fluid is facilitated and thus the duration of the response, also could reduce damage to vision caused by the inadequacies of the photoreceptors during the evolution of macular edema avoiding moderate visual loss, there by increasing the quality of life in terms of improving the quality of vision in diabetic patients. In addition to obtaining a specific adjuvant treatment with photocoagulation is helpful for focal edema in diabetic and a new level using dorzolamide in retina Dorzolamide as adjunctive therapy after focal photocoagulation is more effective than placebo in improving visual function in patients with diabetic macular edema
This study is designed to assess safety and efficacy of intravitreal injection of Conbercept on visual acuity and anatomic outcomes in patients with diabetic macular edema (DME) .
This trial seeks to prove the safety and efficacy of photothermal stimulation treatment to diabetic macular edema, chronic central serous retinopathy, macular edema secondary to branch retinal vein occlusion and macular telangiectasia.
This trial will assess the incidence of new and/or undiagnosed diabetic macular edema (DME) in diabetic patients that undergo a DME screening exam. The screening exam will consist of medical history, Electronic ETDRS visual acuity assessment, SD-OCT and color fundus photography
Macular edema is the most important cause of visual impairment in diabetic patients. Intravitreal injections of antiVEGF (vascular endothelial growth factor) agents and laser treatment are two effective therapies for stabilising visual acuity. However, antiVEGF therapy is very expensive and potentially needs to to be repeated for all patients life. Laser treatment, according to modified ETDRS (early treatment diabetic retinopathy study), produces retinal burns with possible negative consequences such as alterations in the visual fields. With micropulse treatment modality laser energy is delivered in short pulses ("micropulses") rather than as a continuous wave. In this way the amount of energy delivered to the retina and retinal pigment epithelium (RPE) is significantly reduced. This finer control of the photothermal effects should avoid any retinal and RPE damage. At the same time, according to several published reports, the efficacy of treatment appears to be equivalent to conventional laser therapy. Previous studies investigated the effects of 810nm micropulse laser therapy. Recently, this treatment modality has been made available also with 577nm wavelength, which corresponds to the maximum absorption level for blood. Aim of this study is to assess the safety and efficacy of 577nm micropulse laser treatment compared to conventional modified ETDRS laser therapy.