Objective To observe the visual acuity change in patients with different patterns of optical coherence tomography (OCT) of diabetic macular edema (DME) after intravitreal ranibizumab injection and/or laser photocoagulation. Methods A retrospective observational case series. Seventy patients (99 eyes) with DME were enrolled. Best-corrected visual acuity (BCVA) was evaluated using the international vision test chart, and then convert the result to the logarithm of the minimum angle of resolution (logMAR). According to the morphological characteristics of OCT, the DME was divided into 3 patterns, including diffuse macular edema (DRT), cystoid macular edema (CME) and serous neuroepithelial layer detachment. The average follow-up was (80.43±74.89) days. The patients were divided into 3 groups according to the different treatments, including intravitreal ranibizumab injection group (group A, 21 patients, 25 eyes), intravitreal ranibizumab injection and laser photocoagulation group (group B, 23 patients, 26 eyes), laser photocoagulation group (group C, 26 patients, 48 eyes). The changes of absolute BCVA (ABCVA) and improved visual acuity were compared between different treatment groups and different OCT patterns. ABCVA = logMAR BCVA before treatment-logMAR BCVA after treatment. Improvement more than 0.3 of logMAR value was considered as improved visual acuity. Results There was no significant difference in ABCVA between different treatment groups (F=0.050,P>0.05). The improved visual acuity in group A and B were great than group C (χ2=5.645, 6.301;P<0.05). In group A, B and C, there was no significant difference in ABCVA and improved visual acuity between different OCT patterns (P>0.05). Improved visual acuity of DRT and CME eyes were higher in group A&B (70.59% and 50.00%) than in group C (26.47% and 14.29%), the difference was statistically significant (χ2=5.075, 4.453;P<0.05). Conclusions There is no obvious change of visual acuity in patients with different OCT patterns of DME after the same treatment by intravitreal ranibizumab injection and/or laser photocoagulation. The improved visual acuity is not consistent in same OCT patterns after different treatment.
Objective To investigate the distribution patterns of diabetic macular edema (DME) based on optical coherence tomography (OCT), and explore its correlation with diabetic retinopathy (DR) stages and systemic factors. Methods A total of 135 patients (242 eyes) with type 2 diabetes were included in this retrospective study. There were 75 males (138 eyes) and 60 females (104 eyes), the ages were from 29 to 83 years, with an average age of (58.8±11.1) years. The general information such as height, weight, smoking history and blood glucose [such as glycosylated hemoglobin (HbA1c)], blood pressure, blood lipid, 24 hours urine protein and other examinations were collected. The diagnosis of DR and DME were made, and the staging of DR and typing of DME were performed based on fundus color imaging and OCT. DR were divided into mild non-proliferative DR (NPDR), moderate NPDR, severe NPDR and proliferative DR (PDR). DME were categorized into 4 types including sponge-like retinal swelling (SME), cystoid macular edema (CME), serous retinal detachment (SRD) and posterior hyaloid traction (PHT). The correlation between DME types and DR staging were analyzed byχ2 test and Fisher exact test. Multivariate logistic regression analysis was used to analyze the correlation between DME types and systemic factors. Results In 242 DR eyes the proportions of mild, moderate, severe NPDR and PDR were 30.99%, 32.64%, 23.14% and 13.23%, respectively. There were 199 eyes (82.23%) with DME. There were statistically significant differences in the proportion of DME in different stages of DR (χ2=21.077,P<0.01). In the 199 eyes with DME, There were 165 eyes (68.18%) of SME, 22 eyes (9.09%) of CME, 7 eyes (2.89%) of SRD and 5 eyes (2.07%) of PHT. The distribution of DME patterns in different stages of DR was statistically significant (χ2=156.273,P<0.01). Logistic regression analysis showed that the duration of diabetes, HbA1c and macroalbuminuria were independent risk factors for DME [odds ratio (OR)=1.090, 1.510, 4.123;P<0.05], and were also independent for SME (OR=1.092, 1.445, 3.942;P<0.05); HbA1c was an independent risk factor for SRD (OR=2.337,P<0.05). Conclusions There are differences in the distribution of different DME types in each stage of DR. The duration of diabetes, HbA1c and macroalbuminuria were independent risk factors for DME and SME, and macroalbuminuria and HbA1c for CME and SRD.