Objective To investigate the correlation factors of macular pucker after vitrectomy, and compare the surgical effect between secondary and idiopathic epiretinal macular membrane.Methods A study of 26 consecutive patients (26 eyes), in which 18 were diagnosed as secondary epiretinal macular membranes and 8 as idiopathic epiretinal macular membranes, underwent par plana vitrectomy, vitreous cortex separation, and peeling off of the epiretinal macular membrane. The follow-up period was within 3~12 months. Preoperative and postoperative examination included visual acuity, fundus photography, and optical coherence tomography in some patients.Results Among the 18 patients with secondary epiretinal macular membranes, 9 (50.0%) were related to vitreous surgery. There was statistical difference between cryoretinopexy to giant retinal tear and endolaser (χ2=12.24,P<0.05). Eleven patients (61.1%) with secondary epiretinal macular membranes were related to vitreous hemorrhage before or after surgery. We found all macular puckers removed in post-operative examination. The metamorphopsia disappears after 3 months in 8 patients (30.8%), and the situation was better in 18 (69.2%). The visual acuity of the patients with idiopathic epiretinal macular membranes improved 3 lines averagely after operation, and the best-corrected visual acuity was 0.8. The patients with secondary epiretinal macular membranes improved 1.33 lines averagely after vitreous and retinal surgery, and the best-corrected visual acuity was 0.6. Conclusion Cryoretinopexy to giant retinal tear and vitreous hemorrhage before or after surgery are the risk factors of secondary epiretinal macular membranes. Idiopathic epiretinal macular membrane has a better surgical effect than secondary one. (Chin J Ocul Fundus Dis,2003,19:90-92)
Internal limiting membrane peeling is now widely used in the treatment of vitreoretinal diseases, such as idiopathic macular hole, epiretinal membrane, macular edema, traumatic retinopathy, retinoschisis, and optic pit, especially macular diseases. Due to the attention paid to the physiological function of the internal limiting membrane, there is still controversies about whether the internal limiting membrane is removed, and the area and the way of the removal in vitrectomy of the above diseases. Major complications have been reported in literature: effects on internal retinal structure, retinal and choroidal blood flow, retinal electrical activity, potential retinal toxicity of stain, changes in the anatomy of macular area, changes in visual field and potential damage to vision. In this paper, we reviewes the complications of internal limiting membrane peeling in the treatment of macular hole and epiretinal macular membrane.
ObjectiveTo establish an artificial intelligence robot-assisted diagnosis system for fundus diseases based on deep learning optical coherence tomography (OCT) and evaluate its application value. MethodsDiagnostic test studies. From 2016 to 2019, 25 000 OCT images of 25 000 patients treated at the Eye Center of the Second Affiliated Hospital of Zhejiang University School of Medicine were used as training sets and validation sets for the fundus intelligent assisted diagnosis system. Among them, macular epiretinal membrane (MERM), macular edema, macular hole, choroidal neovascularization (CNV), and age-related macular degeneration (AMD) were 5 000 sheets each. The training set and the verification set are 18 124 and 6 876 sheets, respectively. Through the transfer learning Attention ResNet structure algorithm, the OCT image was characterized by lesion identification, the disease feature was extracted by a specific procedure, and the given image was distinguished from other types of disease according to the statistical characteristics of the target lesion. The model algorithms of MERM, macular edema, macular hole, CNV and AMD were initially formed, and the fundus intelligent auxiliary diagnosis system of five models was established. The performance of each model-assisted diagnosis in the fundus intelligent auxiliary diagnostic system was evaluated by applying the subject working characteristic curve, area under the curve (AUC), sensitivity, and specificity. ResultsWith the intelligent auxiliary diagnosis system, the diagnostic sensitivity of the MERM was 93.5%, the specificity was 99.23%, and AUC was 0.983 7; the diagnostic sensitivity of macular edema was 99.02%, the specificity was 98.17%, and AUC was 0.994 6; the diagnostic sensitivity of macular hole was 98.91%, the specificity was 99.91%, AUC was 0.996 2; the diagnostic sensitivity of CNV was 97.54%, the specificity was 94.71%, AUC was 0.987 5; the diagnostic sensitivity of AMD was 95.12%, the specificity was 97.09%, AUC was 0.985 3. ConclusionsThe artificial intelligence robot-assisted diagnosis system for fundus diseases based on deep learning for OCT images has accurate and efficient diagnostic performance for assisting the diagnosis of MERM, macular edema, macular hole, CNV, and AMD.
Objective To compare the efficacy of pars plana vitrectomy (PPV) and nonvitrectomizing vitreous surgery (NVS) in the treatment of idiopathic epimacular membrane (IMEM). MethodsA prospective , randomized and comparative clinical study. From April 2019 to May 2020, 21 eyes of 21 patients with IMEM diagnosed in Chongqing Aier Eye Hospital were included in the study. Among them, 11 males had 11 eyes, and 10 females had 10 eyes. Best-corrected visual acuity (BCVA), optical coherence tomography angiography (OCTA), and corneal, intraocular, and global aberration measurements were performed in all eyes. The international standard logarithmic visual acuity chart was used for BCVA examination, and the visual acuity was converted into logarithm of minimum angle of resolution (logMAR) during statistics. The iTrace visual function analyzer was used to measure the corneal, intraocular and whole ocular aberrations, and the dysfunction lens index (DLI) was calculated. Lens density in Scheimpflug images was calculated using Pentacam three-dimensional anterior segment analysis and diagnosis system. The 6 mm×6 mm area of the macular area was scanned by OCTA, which was divided by the software automatically into three concentric circles with the fovea as the center, namely the central area with a diameter of 1 mm, the inner ring area with a diameter of 1-3 mm, The outer ring area of 3-6 mm was used to measure the superficial vessel density (SVD) and superficial perfusion density (SPD) of the entire macular area, the central area, the inner ring area, and the outer ring area. The patients were divided into PPV combined with epimacular membrane (MEM) peeling group (PPV group) and NVS direct peeling MEM group (NVS group) by random number table method, 10 cases with 10 eyes and 11 cases with 11 eyes, respectively. The age of the two groups (t=-0.72), logMAR BCVA (t=-0.98), lens density (t=-1.10), DLI (t=1.15), SVD (t=0.82) and SPD (t=1.19) of entire macular area, corneal aberration (t=0.45), intraocular aberration (t=-0.22), and whole eye aberration (t=0.83), there was no significant difference (P>0.05). All eyes were operated on with a 27G vitrectomy system. The MEM was removed from the eyes of the NVS group under NVS condition, and the MEM was removed from the eyes of the PPV group under the condition of PPV, and the operation time was recorded at the same time. The follow-up period after surgery was 12 months. Relevant examinations were performed using the same equipment and methods before surgery. Taking the last follow-up as the time point for efficacy judgment, the BCVA, lens opacity, DLI, visual quality, SVD, SPD and MEM recurrence in the macula were compared between the two groups. The two groups were compared by paired t test. ResultsThe operation time of eyes in PPV group and NVS group was 20.81±3.52 and 5.70±1.30 min, respectively, and the difference was statistically significant (t=7.23, P<0.001). At the last follow-up, the logMAR BCVA of PPV group and NVS group were 0.65±0.25 and 0.44±0.20, respectively, and the difference was statistically significant (t=-2.16, P=0.04); compared with before operation, the BCVA of eyes of the two groups was significantly improved, and the difference was statistically significant. (t=2.52, 4.41; P=0.033, P<0.001). The lens density and DLI of the affected eyes in the PPV group and NVS group were 10.64±1.58, 6.24±3.99 and 5.77±1.63, 7.74±1.55, respectively, and the differences were statistically significant (t=-3.90, 2.85; P<0.05). The macular area SVD (t=1.03), SPD (t=1.77), corneal aberration (t=-0.42), intraocular aberration (t=-1.10), and whole-eye aberration (t=-1.17) of eyes of the two groups, the difference was not statistically significant (P>0.05). During the follow-up period, there were 2 eyes with MEM recurrence, 1 eye in the PPV group and 1 eye in the NVS group; there was no significant difference in the recurrence rate of MEM between the two groups (χ2=0.005, P=0.94). ConclusionCompared with PPV combined with MEM stripping, the BCVA after NVS surgery increases more, has a better protective effect on the lens, and has a shorter operation time.
ObjectiveTo observe the efficacy of dexamethasone intravitreal implant (DEX) combined with pars plana vitrectomy (PPV) in eyes with severe idiopathic epimacular membrane (IMEM). MethodsA prospective clinical case study. From December 2018 to May 2021, 24 patients with 25 eyes of severe IMEM diagnosed in Tianjin Medical University Eye Hospital were included in the study. Among them, 7 males had 7 eyes, 17 females had 18 eyes. Age was 57 to 84 years old. The IMEM stage was 3 to 4 examined by spectral domain optical coherence tomography (SD-OCT). All eyes were performed best corrected visual acuity (BCVA) and central macular thickness (CMT) by SD-OCT. The patients were randomly divided into PPV group (11 eyes) and PPV+DEX group (14 eyes). Standard PPV by three-channel 25G was performed. Phacoemulsification, membrane stripping and intraocular lens implantation were combined during the operation. Patients received vitreous injection of 0.7 mg DEX in PPV+DEX group at the end of the operation. At 1 week, 1 month, 3 months and 6 months after operation, the same equipments and methods were used to perform relevant examinations. The changes of BCVA and CMT were compared between the two groups by t test. ResultsCompared with before operation, at 1, 3 and 6 months after operation, the BCVA of the eyes in the PPV+DEX group was significantly improved (t=3.974, 4.639, 4.453), CMT was significantly decreased (t=2.955, 3.722, 4.364), the differences were statistically significant (P<0.05); at 3 and 6 months after surgery, the BCVA of the eyes in the PPV group was significantly improved (t=2.983, 4.436), CMT was significantly decreased (t=2.983, 3.461), the differences were statistically significant (P<0.05). ConclusionIn the treatment of severe IMEM, DEX can accelerate the early postoperative visual recovery and reduce CMT.
ObjectiveTo observe the incidence and risk factors of microcystic macular edema (MME) in patients with idiopathic macular epiretinal membrane (IMEM) preoperatively and postoperatively. MethodsA retrospective case series study. From January 2017 to May 2021, 72 eyes of 72 patients with IMEM in Eye Hospital of Wenzhou Medical University at Hangzhou were included. There were 18 male and 54 female. Average age was 64.8±7.8 years. Eyes were all monocular. All patients received the examination of best corrected visual acuity (BCVA) by standard logarithmic visual acuity chart, which was represented logarithmic of minimum angle of resolution (logMAR). Optical coherence tomography was used to measure central macular thickness (CMT). MME was defined as small, vertically bounded cystic space located outside the fovea in the inner layer of the retina. According to the presence or absence of MME before surgery, the affected eyes were divided into two groups: non-MME group (35 eyes) and MME group (37 eyes). The difference of logMAR BCVA and CMT was statistically significant between Group A and B (t=3.117, 2.589; P=0.003, 0.012). All patients with IMEM were treated with 23G three-channels pars plana vitrectomy (PPV) with epiretinal membrane and inner limiting membrane (ILM) peeling. The two groups were further divided into four groups according to whether there was MME in the postoperative follow-up time. The group A1 was without MME before and after surgery, group A2 was without MME before surgery and with MME after surgery. The MME group was subdivided into the group with MME before surgery and without MME after surgery (group B1) and the group with MME before and after surgery (group B2). The mean follow-up time was 8.8±7.7 months. The same equipment and methods were used to exam the patients during the follow-up. Paired t test was used to compare the changes of MME, BCVA and CMT before and after surgery. The differences of CMT and BCVA among groups before and after surgery were compared by independent sample t test and one-way ANOVA. Logistic regression was used to analyze the influencing factors of MME before and after surgery, and multiple linear regression was used to analyze the influencing factors of postoperative BCVA. ResultsThere were 35 eyes in the non-MME group, 18 eyes (51.43%, 18/35) in the A1 group and 17 eyes (48.57%, 17/35) in the A2 group, respectively. There were 37 eyes in MME group, 6 eyes (16.22%, 6/37) in group B1 and 31 eyes (83.78%, 31/37) in group B2, respectively. At last follow-up, the logMAR BCVA was 0.10±0.12, 0.25±0.17, 0.09±0.11, 0.30±0.26 in group A1, A2, B1, and B2, respectively. Compared with the logMAR BCVA before surgery, the differences were statistically significant (t=3.779, 4.253, 7.869, 6.668; P<0.01). There was significant difference in logMAR BCVA among the four groups (F=4.460, P<0.01). There was a significant difference in logMAR BCVA between group A1 and group A2 (t=-2.930, P=0.006). There was no significant difference between group B1 and group B2 (t=-1.921, P=0.063). The CMT of group A1, A2, B1 and B2 were 371.83±73.24, 431.24±83.13, 407.00±28.07 and 425.19±70.97 μm, respectively. Compared with those before operation, the differences were statistically significant (t=5.197, 2.465, 3.055, 6.078; P<0.05). There was no significant difference in CMT among the four groups (F=2.597, P=0.059). Logistic regression analysis showed that pre-operation MME was correlated with pre-operation IMEM stage (β=1.494, P=0.004). New MME after surgery was correlated with age (β=0.153, P=0.013). Multiple linear regression analysis showed that postoperative visual acuity was significantly correlated with CMT before surgery and MME after surgery (β=0.001, 0.134; P=0.015, 0.019). ConclusionsPPV combined with epiretinal membrane and ILM peeling surgery for IMEM can improve visual acuity and decrease CMT. MME regress or regenerate after surgery. Age is an independent predictor of the risk of newly formed MME after surgery.
Objective To investigate the correlation between systemic immune inflammatory index (SII) and other metabolic indicators and diabetic epiretinal membranes (dERM). MethodsA retrospective case-control study. From March 2022 to July 2023, 81 patients (81 eyes) with dERM in Department of Ophthalmology, Affiliated Jinhua Hospital of Zhejiang University of Medicine School diagnosed by fundus screening were included in the study. A total of 81 patients (81 eyes) with diabetes who were matched in age, gender, and duration of diabetes and had no dERM or diabetic macular edema in both eyes during fundus screening were selected as the control group. All patients underwent optical coherence tomography (OCT) examination and laboratory tests for peripheral blood neutrophil, lymphocyte, platelet counts, serum albumin, blood lipids, uric acid, and glycosylated hemoglobin (HbA1c). SII was calculated. Random urine samples were collected for urinary albumin/creatinine ratio (ACR) testing. The OCT device's own analysis software obtained the macular volume coefficient, including central foveal thickness (CMT), macular volume, and average macular thickness. The macular volume coefficient, SII, serum albumin, blood lipids, uric acid, HbA1c, and ACR between the two groups were compared using paired t tests or Mann-Whitney U tests. Conditional logistic regression analysis was performed to evaluate the risk factors for dERM; Spearman correlation test was used to analyze the correlation between CMT, SII, ACR, disorganization of retinal inner layers (DRIL), intraretinal cyst (IRC), and hyper-reflective foci (HRF) in patients with dERM. ResultsThere were significant differences in CMT, macular volume, average macular thickness, SII, serum albumin, and ACR between the dERM group and the control group (Z=−7.234, −6.306, −6.400, −3.063, −2.631, −3.868; P<0.05). Conditional logistics regression analysis showed that high SII [odds ratio (OR)= 3.919, 95% confidence interval (CI) 1.591-9.654, P=0.003] and ACR (OR=4.432, 95%CI 1.885-10.420, P=0.001) were risk factors for dERM. Spearman correlation analysis showed that HRF, IRC, DRIL were positively correlated with CMT (Rs=0.234, 0.330, 0.248; P=0.036, 0.003, 0.026); HRF was positively correlated with SII and ACR (Rs=0.233, 0.278; P=0.036, 0.012). ConclusionElevated SII and ACR are independent risk factors for the occurrence of dERM.