ObjectiveTo observe the effect of internal limiting membrane peeling and transplantation on vision-related quality of life in refractory macular hole.MethodsA retrospective clinical study. Thirty patients (30 eyes) with refractory macular hole diagnosed in Ophthalmology Department of The First Affiliated Hospital of Nanjing Medical University from January to December 2016 were included in this study. There were 13 males (13 eyes) and 17 females (17 eyes), with the mean age of 57.3±6.9 years. There were 15 patients (15 eyes) with large macular diameter, 12 patients (12 eyes) with high myopia macular hole, and 3 patients (3 eyes) with secondary traumatic macular hole. The BCVA examination was performed using the Snellen visual acuity chart, which was converted into logMAR visual acuity. OCT was performed to measure the macular retinal thickness (CRT), base diameter and minimum diameter of macular hole. Then, the macular hole index (MHI) was calculated. The logMAR BCVA was 1.52±0.30, MHI was 0.51±0.19. The Chinese version of visual-related quality of life scale -25 (CVRQoL-25) was used to evaluate the vision-related quality of life of patients. The CVRQoL-25 score was 57.60±7.13. All patients underwent 23G vitrectomy combined with inner limited membrane peeling and autologous ILM transplantation. The follow-up was at least 3 months after surgery. The changes of BCVA, MHI, CRT and CVRQoL-25 score before and after surgery were comparatively analyzed. Paired t test was performed to compare the measurement data before and after surgery, and Spearman rank correlation analysis was used for the correlation analysis among the parameters.ResultsAt 3 months after surgery, the hole closure was detected in 28 eyes (93.3%), not detected in 2 eyes (6.7%). The logMAR BCVA was 1.16±0.33, CRT was 161.00±15.26, and CVRQoL-25 scores was 70.83±9.77. Compared with before surgery, the BCVA (t=4.386, P=0.000) and CVRQoL-25 score (t=-5.991, P=0.000) after surgery were improved. Spearman rank correlation analysis showed that CVRQoL-25 score was negatively correlated with preoperative and postoperative logMAR BCVA (r=−0.536, −0.796; P=0.002, 0.000); positively correlated with preoperative MHI (r=0.421, P=0.020) and postoperative CRT (r=0.589, P=0.001).ConclusionInternal limiting membrane peeling and transplantation for refractory macular hole can significantly improve the vision-related quality of life and visual acuity, while achieved a high hole closure rate (93.3%).
ObjectiveTo observe the healing morphology, macular microstructure and visual function of idiopathic macular hole (IMH) after pars plana vitrectomy (PPV) combined with internal limiting membrane (ILM) flap.MethodsRetrospective case study. From 2016 to 2018, 39 eyes of 39 patients with IMH diagnosed in Tianjin Eye Hospital were included in the study. Among them, there were 4 eyes in 4 males and 35 eyes in 35 females, with an average age of 64.56±7.2 years. BCVA, OCT, OCT angiography (OCTA) and MAIA microperimetry examination were performed in all patients. BCVA examination was performed with the international standard visual acuity chart, which was converted to logMAR visual acuity when recording. All patients underwent PPV combined with ILM flap covering and air tamponade. According to the characteristics of OCT images postoperatively, the eyes were divided into U-shaped closed group, V-shaped closed group, irregular closed group and flat closed group, with 26, 5, 7 and 1 eyes respectively. There was a significant difference in the minimum hole diameter (F=5.118, P=0.005) and macular hole classification (F=3.608, P=0.024). The shallow capillary layer (SCP) blood flow density in the U-shaped closure group was significantly higher than that in the V-shaped closure group, the irregular closure group and the flat closure group (t=2.079, 2.368; P=0.047, 0.025). At 1, 3, 6 months after the operation, the same equipment and methods were used for relevant examination. The blood flow density of BCVA, SCP, perimeter of foveal avascular zone (PERIM) and mean sensitivity (MS) were compared before and after operation. Independent sample t-test was used for quantitative data comparison between different groups, and χ2 test was used for counting data comparison.ResultsSix months after operation, the logMAR of the eyes in the U-shaped closure group was -0.75±0.29 higher than that before operation, and was better than that in the V-shaped closure group, the irregular closure group and the flat closure group (t=-2.974, -2.518; P=0.006, 0.018). The integrity of external limiting membrane (ELM) and ellipsoid in U-shaped closed group was significantly higher than that in V-shaped closed group, irregular closed group and flat closed group (χ2=15.229, 10.809; P=0.020, 0.013). The percentage of macular central fovea reflex mass in the U-shaped closed group was significantly lower than that in the V-shaped closed group, irregular closed group and flat closed group (χ2=20.107, P=0.000). PERIM in U-shaped closure group was smaller than that in V-shaped closure group, irregular closure group and flat closure group, and the difference was statistically significant (t=-3.391, -2.427; P=0.002, 0.022). The total MS of macular area 10 °in the U-shaped closure group was significantly higher than that in the other V-shaped closure group, irregular closure group and flat closure group (t=2.939, 2.811; P=0.001, 0.001).ConclusionAfter IMH operation, the U-shaped closure showed better BCVA and macular light sensitivity, the proportion of ELM and ellipsoid to restore structural integrity are higher, PERIM is smaller, and there are fewer macular fovea strong reflex masses.
ObjectiveTo observe the changes of the inner-retinal irregularity index (IRII) of eyes with idiopathic macular epiretinal membrane (IMEM) before and after surgery and its correlation with visual function.Methodsretrospective series of studies. From March 2017 to May 2018, 46 IMEM patients (46 eyes) diagnosed in the Department of Ophthalmology of Central Theater Command General Hospital were included in the study. BCVA, visual deformation degree (M), OCT inspection with swept source were all performed. The BCVA examination was carried out using the international standard visual acuity chart, which was converted into logMAR visual acuity for record. The average IRII was 1.255±0.048, the average logMAR BCVA was 0.63±0.21, the average M value was 0.68±0.38, the average of central macular thickness (CMT) was 353.57±73.92 μm, the average inner retinal layer thickness (IRT) was 181.50±40.91 μm. The complete and incomplete ellipsoid zone (EZ) were 17 and 29 eyes, respectively. All eyes underwent a 25G three-incision closed vitrectomy through the flat part of the ciliary body, and the epiretinal membrane and inner limiting membrane were removed at the same time. The changes of IRII, M value, BCVA, CMT, IRT and EZ were observed at 1, 3, 6, and 12 months after surgery, and the correlation were analyzed between IRII and M value and BCVA before and after surgery. Single-factor repeated measurement data analysis of variance was used for the comparison of BCVA, M value, CMT, and IRT before and after surgery. Spearman rank correlation analysis were adopted for the correlation analysis between IRII and BCVA, M value, CMT, IRT and EZ integrity before and after surgery.ResultsTwelve months after surgery, the average IRII and logMAR BCVA were 1.175±0.032 and 0.47±0.16, respectively. Compared with those before surgery, they were significantly improved, and the difference was statistically significant (F=22.273, 5.453; P<0.001, <0.001). The average M value (F=20.109), CMT (F=14.273), IRN (F=13.665) were significantly lower than those before the operation, and the difference was statistically significant (P<0.001, 0.001, <0.001). The integrity of EZ was significantly improved compared with that before surgery, and the difference was statistically significant (χ2=12.715, P<0.001). The results of correlation analysis showed that preoperative IRII was positively correlated with preoperative M value and CMT (r=0.951, 0.701; P<0.001, <0.001). It was positively correlated with postoperative M value, logMAR BCVA, CMT and EZ integrity (r=0.650, 0.369, 0.720, 0.293; P<0.001, <0.001, P=0.048). It was not correlated with preoperative logMAR BCVA and EZ integrity (r=0.283, 0.001; P=0.056, 0.996).ConclusionThe IRII of IMEM eyes before surgery is significantly correlated with the BCVA and M values after surgery.
High myopia has a high genetic tendency, it not only shows in the excessive elongation of the axial length, but also lends to the formation and progression of various eye lesions, such as peripheral retinopathy, optic disc changes, posterior staphyloma, and myopic maculopathy, due to the mechanical stretching of the axial length to the ocular structure. In addition, high myopia increases the risk of several complications, such as glaucoma, cataract, and corneal disease. All these pathological changes will affect visual function and lead to irreversible vision impairment and blindness in the future. Therefore, it is important to pay attention to screening for optic disc abnormalities and posterior staphyloma, and regular monitor the changes of fundus, intraocular pressure, and lens. At the same time, high myopia has an impact on personal life such as study, psychology, sport, and work, and can reduce the quality of life as well as increase the cost of health care. The clinic should pay more attention to high myopia, prevent and control the development of high myopia from an early stage, in order to minimize its impact on ocular structure and visual function as well as its hazard to personal life and society.
Critical flicker fusion frequency (CFF) is a dynamic visual function test that measures the minimum frequency at which a flicker source is perceived by the visual system as continuous light. The measurement method is convenient, the inspection time is short, and it can be effectively evaluated in the case of refractive interstitial opacity. Although CFF has many advantages, its application in the field of ophthalmology has not received sufficient attention. The pathway of CFF involves the pathway from the retina to the lateral geniculate body to the primary visual cortex, where the macrocellular pathway is sensitive to temporal resolution and responsible for transmitting rapidly changing information. Its measurements typically use red, green, or yellow light as a flashing light source to detect the functional integrity of the macular region. As a subjective test, the results of CFF can be affected by a variety of factors, such as drug use, fatigue, and luminous intensity. In order to improve the repeatability of the measurement, it is necessary to follow standardized measurement steps. CFF has important application value in the diagnosis of optic nerve diseases. It can assist in diagnosing the presence of optic neuropathy, evaluating the conduction function of the optic nerve, and monitoring the progression of the disease and the effect of treatment. As a convenient and efficient visual function evaluation tool, CFF has great potential in the diagnosis of optic nerve diseases and visual function monitoring. In view of its application prospects in the field of ophthalmology, this study calls for more attention and support from ophthalmologists, and carry out related basic and clinical research to further explore the application value of CFF in different disease conditions.