ABSTRACT
Introduction:
The aim of this study was to evaluate the clinical features of pseudophakic patients with idiopathic epiretinal membrane (ERM) and to compare the optical coherence tomography (OCT) macular characteristics of the eye with ERM with the normal eye.
Methods:
Patients with bilateral pseudophakic eyes and ERM in one eye who were admitted to our clinic between 2017 and 2018 were evaluated according to gender, age, visual acuity and OCT findings and the relationship between these findings were evaluated statistically.
Results:
Eighty-two eyes of 41 patients with a mean age of 71.4±6.4 years (range: 60-86) who were admitted to our clinic between 2017 and 2018 were included in the study. All eyes were pseudopkahic. The patients with systemic and ocular disease history were not excluded. Nineteen (46%) patients were female and 22 (54%) were male. ERM was on the right side in 21 (51%) eyes and on the left side in 20 (49%) eyes. The mean visual acuity of the eyes with ERM was 0.35±0.24 (0.1-1.0) LogMAR. The mean central macular thickness of the eyes with ERM was 355.4±75.4 (234-554) microns. Regarding the parafoveal region (1-3 mm), the superior quadrant thickness was 371.4±60.3 (range: 287-558) microns, nasal quadrant thickness was 371±52.5 (range: 311-549) microns, inferior quadrant thickness was 365.6±44.3 (range: 307-494) micron and temporal quadrant thickness was 365.1±52.2 (range: 280-510) micron. In the eyes with ERM, the macular volume was 11.3±1.1 (9.7-15) mm3 by OCT. There was a statistically significant difference between eyes with and without ERM in terms of central macular thickness, macular volume, superior, temporal, inferior and nasal quadrant thicknesses of parafoveal region (1-3 mm) (p<0.05).
Conclusion:
ERM is a disease related to advanced age. Since the disease occurs at the vitreoretinal interface, it causes some changes in optic cohorence tomography.
Introduction
Epiretinal membrane (ERM) is a vitreoretinal interface disease that leads to a decrease in visual acuity, macropia, micropsy and metamorphopsia symptoms. These symptoms have been associated with macular surface deterioration and macular thickness increase (1,2). Diagnosis is made clinically and by means of optical coherence tomography (OCT) (3,4). ERM is formed on the internal limiting membrane (ILM) and has a fibrocellular structure (5). ERM diagnosis and classification is based on clinical findings (6).
ERM is etiologically classified as primary and secondary ERM (3). ERM without pathological ophthalmic examination other than posterior vitreous detachment is called primary idiopathic ERM (7,8). Secondary ERM can occur as a result of many etiological factors such as ocular trauma, cryopexy, intraocular surgeries and vascular pathologies related to the retinal artery and veins (4). Although the disease is generally benign, it may cause functional defects by causing shrinkage in the retina and veins, structural changes in retinal pigment epithelium, photoreceptor cells and veins, and causing intraretinal edema (9-11).
In this study, we aimed to evaluate the age, visual acuity and OCT findings of bilateral pseudophakic patients with ERM and to evaluate the relationship between these features.
Methods
In our study, patients who were admitted to our clinic between August 2017 and August 2018 and who had unilateral stage 2 ERM in their clinical examination were evaluated. Only bilateral pseudophakic patients were evaluated in order to evaluate the ERM-related visual acuity levels of the patients included in the study and to provide the retinal evaluation with OCT. Retinal imaging was performed with Cirrus HD-OCT (Carl Zeiss Meditec, Dublin, CA) to confirm the diagnosis of ERM and to evaluate macular volume and thickness of central macular and parafoveal quadrants (Image 1). The patients had no history of ocular surgery, except for cataract surgery. The patients with ophthalmologic disease history and detected pathology on ophthalmologic examination were not included in the study. Patients with hypertension, coronary artery disease and diabetes mellitus (DM) were excluded. Age, gender and visual acuity were recorded.
Among OCT findings, central macular thickness, mean retinal thickness in superior, nasal, inferior and temporal parafoveal quadrants (1-3 mm), distance between ILM and in retina pigment epithelium in the central macular region and macular volume within 6 mm horizontal and 6 mm vertical fovea-centered square area were recorded. OCT measurements and measurement classifications were performed according to the studies by Chan et al. (12) and Sabouri et al. (13).
Visual acuity levels according to the Snellen chart, intraocular pressures in mmHg, detailed anterior segment and fundus examinations were recorded in all patients. The history of systemic and ocular disease of all patients was questioned. Patients with a history of systemic and ocular disease and patients with surgical history except for uncomplicated cataract surgery were excluded from the study. For statistical evaluation, the visual acuities recorded according to the Snellen chart were converted to the corresponding LogMAR values. In the statistical evaluation, the relationship between visual findings, OCT findings and visual acuity in eyes with and without ERM were evaluated.
İstanbul Training and Research Local Ethics Committee approval was obtained for this study (decision no: 882, date: 25.11.2016). The study was conducted in accordance with the Declaration of Helsinki. Written and oral consent were obtained from the patients included in the study and their data were evaluated within the scope of the study.
Statistical Analysis
Statistical analysis was performed using paired t-test in SPSS ver. 25 for Windows (SPSS Inc., Chicago, Illinois, USA) software. Descriptive statistics were given as number and percentage for categorical variables. Regarding correlation analysis, Pearson or Spearman correlation tests were used, where appropriate. p<0.05 was considered statistically significant.
Results
The study included 82 eyes of 41 patients (19 women and 22 men) with a mean age of 71.4±6.4 (range: 60-86) years. The patients were pseudophakic and had ERM in one eye. Patients who had hypertension, coronary artery disease and DM were excluded. The visual acuities of the eyes with and without ERM were 0.35±0.24 (range: 0.1-1.0) LogMAR and 0.0±0.1 (range: 0.0-0.1) LogMAR, respectively.
When the findings of the eyes with and without ERM were compared, it was observed that there was a significant difference between two groups in terms of visual acuity, central macular thickness, and thickness of the superior, temporal, nasal and inferior parafoveal (1-3 mm) quadrants (p<0.05) (Table 1).
Regarding statistical relationship between visual acuity and central macular thickness (Figure 1), thickness of the superior (Figure 2), temporal (Figure 3), nasal (Figure 4) and inferior (Figure 5) parafoveal quadrants (1-3 mm), and macular volume (Figure 6) in the eyes with ERM, statistically significant negative correlation was found between visual acuity level and these parameters (p=0.000, r=-0.689; p=0.004, r=-0.445; p=0.000, r=-0.577; p=0.004, r=-0.440; p=0.006, r=-0.422; p=0.001, r=-0.517) (Table 2).
Discussion
Although the majority of the cases diagnosed as ERM were over 50 years of age, ERM was found in 2-6.4% autopsy studies (14). Fraser-Bell et al. (15) reported an ERM incidence of approximately 5.3% in an epidemiological study. In an epidemiological study by Miyazaki et al. (16), the incidence of ERM in adults over 40 years of age was 4%. All of the cases in our study were pseudophakic patients over the age of 60 years. Similar to other studies, ERM was associated with advanced age in our study. In a study by Klein et al. (17) evaluating the relationship between the disease and gender, they stated that the disease was more common in women than men. In our study, there was no statistically significant difference between men and women.
Stevenson et al. (1) reported that macular thickness was increased in patients with ERM. Chen et al. (18) showed that there was an increase in macular thickness in the ERM cases and that there was a correlation between the increase in macular thickness and visual acuity. Kumagai et al. (19) reported that macular thickness decreased and visual acuity improved after ERM surgery. In our study, central macular thickness, and thickness of the superior, temporal, nasal and inferior parafoveal quadrants (1-3 mm) in eyes with ERM were statistically higher than the same parameters in eyes without ERM. In addition, the mean visual acuity level in the eyes with ERM was statistically lower than in the eyes without eyes.
Pilli et al. (20) demonstrated the relationship between the increase in central macular thickness and the deterioration of macular morphology and decreased visual acuity. In their histological study, Paovic et al. (21) reported that visual acuity decreased in the central macular thickness increase due to ERM-related macular edema. Dawson et al. (22) reported that visual acuity decreased with central macular thickness increase and visual acuity increased in patients with decreased central macular thickness following macular surgery. The relationship between central macular thickness and visual acuity levels of the patients in our study was evaluated. In our study, there was also a statistically significant relationship between visual acuity level and central macular thickness. In our study, there was also a statistically significant relationship between visual acuity and central macular thickness, and thickness of the superior, temporal, nasal and inferior parafoveal quadrants (1-3 mm) in eyes with ERM.
Reduction in visual acuity due to ERM and primary treatment of metamorphopsia were defined as pars plana vitrectomy (PPV) (23). In a study performed by Karabaş et al. (24), they defined the rate of visual acuity increase after PPV as 90% in primary idiopathic ERM and 62.8% in secondary ERM cases. Tanawade et al. (25) reported in their study that visual acuity increased after PPV in 31.25% of cases, did not change in 31.25% and decreased in 37.5%. Okomoto et al. (2) reported that metamorphopsia complaints could be resolved with PPV.
Conclusion
ERM is usually a disease related to advanced age. ERM is considered one of the vitreoretinal interface diseases. With or without intraretinal edema, the membrane causes visual symptoms as a result of an increase in macular thickness. The main treatment of the disease was defined as PPV. Examination of the vitreoretinal interface and evaluation of OCT in elderly patients presenting with low level of vision is very important in terms of overlooking disease. Surgical approach is a treatment option in patients with low visual acuity, micropsia, macropsy and metamorphopsia.