Characterization of Retinal Disease Progression in Eyes With Non Proliferative Diabetic Retinopathy in Diabetes Type 2 Using Non-invasive Procedures (CHART)

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The progression of diabetic retinopathy (DR) varies between different patients, even with similar metabolic control. It is becoming clear that a sizeable proportion of patients with mild non-proliferative diabetic retinopathy (NPDR) will take a long time to develop any sight-threatening complication...

The progression of diabetic retinopathy (DR) varies between different patients, even with similar metabolic control. It is becoming clear that a sizeable proportion of patients with mild non-proliferative diabetic retinopathy (NPDR) will take a long time to develop any sight-threatening complication. The inclusion of eyes/patients in a clinical trial that do not show any significant worsening during the period of the trial masks any beneficial effect of the drug being tested and consequently would increase trial sizes as the true therapeutic effect in high-risk patients would be partially obscured. It appears that the only option is to identify the eyes/patients that show progression of retinopathy during a pre-trial run-in period and only include such patients. Characterization of progressors in the early stages of DR and identification of biomarkers of disease progression are of major interest to facilitate drug development in this area of high unmet need. Three different phenotypes of mild NPDR progression with different risks for development of Clinically Significant Macular Edema (CSME) were identified using cluster analysis based on the turnover rate of microaneurysms (MAT) and the central retinal thickness (CRT). Phenotype A, patients with low MAT and CRT < 260 micron in women and < 275 micron in men (on Cirrus Optical Coherence Tomography - OCT, corresponding to the mean CRT in healthy subjects plus 1 standard deviation, SD); Phenotype B, patients with low MAT and CRT ? 260 micron in women and ? 275 micron in men; and Phenotype C patients with high MAT. These phenotypes were recently confirmed in a larger population of NPDR patients. In this study, Phenotype B shows a risk for DR progression to Macular Edema (ME) of OR=13.30 and Phenotype C of OR=6.32. When CRT increase is present, then Phenotype C shows a higher risk for ME (OR=29.02). In these studies, the occurrence of proliferative diabetic retinopathy (PDR) as an outcome was rare and did not allow statistical analysis. More recently it was shown that phenotype C identifies eyes at higher risk for development of CSME and PDR, whereas phenotype A identifies eyes at very low risk for vision-threatening complications. Patients with phenotypes B and C are, therefore, the NPDR patients with higher risk for ME development and are those patients who may benefit from early therapeutic or preventive treatment. Therefore, a proper characterization of this population is of major interest for the understanding of the disease, and to the design of new therapeutical approaches that can facilitate adequate and timely interventions. To better characterize these patients, new non-invasive methods are now available that allow for a better insight of the retinal changes that occurs in these patients. The Optical Coherence Tomography Angiography (OCT-A) and OCT-Leakage (OCT-L) are two of these methods that can be used in longitudinal studies. These methods allow to quantify capillary closure and leakage, the main alterations occurring in DR (ischemia and leakage) and which are considered to predict sight-threatening complications, ME and PDR. In recent studies it was shown that the vessel density in the superficial and deep layers, obtained with OCT-A, and the Low Optical Reflectivity (LOR) ratio obtained with OCT-L are altered even in the earlier stages of DR. These two methods are therefore expected to better characterize leaky and ischemic patients' phenotypes (i.e., phenotypes B and C, respectively), being therefore a major step in early diagnosis and timely treatment of DR patients. Measurement of neurodegeneration (ND) represented by thinning of Ganglion Cell Layer (GCL) and Inner Plexiform Layer (IPL) will also be performed. This study aims to better characterize the retinal changes that occur during a 2-years follow-up period in patients with diabetes Type 2 and with the initial stages of NPDR and at higher risk for sight-threatening complications, allowing better characterization of eyes at risk of progression (phenotypes B and C). The inclusion will be based on patients with established retinopathy ETDRS 35, 43, 47 and 53, distributed to the different clinical sites in the study, creating the opportunity to demonstrate the progression phenotypes.

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