Objective To observe the thickness of the retina, retinal nerve fiber layer (RNFL), choroid and sclera among the difference posterior sclera shape (PSS) in high myopia (HM). Methods Sixty HM patients (96 eyes) were enrolled in this study. There were 18 males (25 eyes) and 42 females (71 eyes). The mean age was (51.32±10.06) years. The mean spherical equivalent was (-14.38±6.31) DS. The mean axial length was (29.49±2.44) mm. The eyes were evaluated from deep range imaging optical coherent tomography (DRI-OCT) Atlantis 3D model, and divided as four groups include PSS-Ⅰ (27 eyes), PSS-Ⅱ (46 eyes), PSS-Ⅲ (11 eyes) and PSS-Ⅸ (12 eyes) according to the Curtin classification method. The thickness of the retina, RNFL, choroid and sclera were measured in the EDTRS Grid area. Results There were statistically significant differences in the thickness of retina of the central, first circle, second circle in the EDTRS Grid area among PSS-Ⅰ, PSS-Ⅱ, PSS-Ⅲ and PSS-Ⅸ groups (F=4.48, 5.03, 4.98; P<0.01). There was no statistically significant differences in the thickness of RNFL among four groups (F=0.13, P=0.93). There was no statistically significant differences in the central choroidal thickness (F=0.31, P=0.81). There were statistically significant differences in the first circle, second circle choroidal thickness among four groups (F=2.86, 2.96; P=0.04, 0.04). There was no statistically significant differences in the thickness of sclera under macular fovea among four groups (F=0.80, P=0.49). Conlusions There are changes of thickness of the retina, choroid present in the difference EDTRS Grid area among the difference PSS in HM, and changes in PSS-Ⅸ is most obvious.
High myopia has become a global public health issue, posing a significant threat to visual health. There are still some problems in the process of diagnosis and treatment, including the definition of high myopia and pathological myopia, opportunities and challenges of artificial intelligence in the diagnosis and treatment system, domestic and international collaboration in the field of high myopia, the application of genetic screening in children with myopia and high myopia patients, and the exploration of new treatment methods for high myopia. Nowadays, myopia and high myopia show the characteristics of early onset age and sharp rise in prevalence, and gradually become the main cause of low vision and irreversible blindness in young and middle-aged people. Therefore, it is of great significance to accurately define high myopia and pathological myopia, combine artificial intelligence and other methods for screening and prevention, promote cooperation in different fields, strengthen gene screening for early-onset myopia and adopt new and effective ways to treat it.
Objective To observe the microperimetry performance of macular function in pathologic myopia patients. Methods The clinical data of 90 patients (142 eyes) with pathologic myopia were retrospectively analyzed. All patients were asked in details about history, and take examinations of best corrected visual acuity (BCVA), refractive dioptre, eye axis, fluorescent fundus angiography (FFA), indirect ophthalmoscopy and optical coherence tomography (OCT). According to the test results, patients were divided into non-pathological macular group (20 patients, 24 eyes) and pathological macular group (70 patients, 118 eyes). Retinal imaging and macular microperimetry were measure by MP-1 Microperimeter.The mean retinal sensitivities (MS) and fixation stability in the central 10deg;, fixation rate and fixation position in the central 2deg; and 4deg;were determined.Results The MS of pathological and non-pathological macular group were(16.39plusmn;2.12), (10.80plusmn;4.53) dB respectively, the difference was statistically significant(F=15.044,t=-9.314;P=0.000). Among 24 eyes of non-pathological macular group, fixation was stable in 19 eyes (79.17%), relative unstable in five eyes (20.83%); among 118 eyes of pathological macular group, fixation was stable in 45 eyes (38.14%), relative unstable in 52 eyes (44.07%), unstable in 21 eyes (17.79%), the difference was statistically significant(chi;2=13.56, P=0.000). The differences of 2 deg;and 4 deg;fixation rate between those two groups are statistically significant (F=5.773, 13.230; t=-4.110,-5.465;P=0.000) . Among 24 eyes of non-pathological macular group, center fixation occurred in 23 eyes (95.83%), weak center fixation occurred in one eye (4.17%); among 118 eyes of pathological macular group, fixation center occurred in 81 eyes (68.64%), weak center fixation occurred in 16 eyes (13.56%),eccentric fixation occurred in 21 eyes (17.80%), the difference was statistically significant (F=9.618,t=-5.773;P=0.000).Conclusion Pathological myopia patients with pathological macular changes have decreased retinal sensitivity, decreased fixation stability and eccentric fixation points.
Due to the high incidence and the earlier onset age, high myopia has become an important public health problem in China. Posterior scleral reinforcement surgery has been developed for over 60 years in order to control the rapid progression and complications of high myopia. By suturing a certain size of material on the surface of the posterior eyeball, thickness and elasticity modulus of the local sclera significantly increase. As the result, the rapid growth of the axial length and the chorioretinopathy could be alleviated. At present, controversies about its clinical efficacy and safety still exist, so posterior scleral reinforcement surgery has not been widely carried out all over the world. An in-depth analysis of the mechanism, surgical manipulations and materials, the clinical application status of posterior scleral reinforcement surgery on control of high myopia can provide a basis for further standardized application of this surgery
Thinning and atrophy of sclerotic tissues play an important role in the development of high myopia. High myopic eyes had the thickest sclera at the posterior pole and the thinnest sclera at the equator. Most clinical studies found that scleral thickness was negatively correlative with the axial length. Patients complicated with posterior staphyloma had even thinner sclera, and its height was negatively related with the scleral thickness. At present, the main measurement methods for scleral thickness of high myopic eyes include histological measurement, enhanced depth imaging optical coherence tomography (OCT), and swept-source OCT. Following the development of OCT technique, it gradually becomes feasible to carry out studies on sclera thickness in mildly and moderately myopic populations, which is helpful to illuminate the mechanism of action of sclera on the onset and progression of high myopia.
Objective To observe the the clinical characteristics of images of optic coherence tomography (OCT) in highly myopic eyes with retinoschisis. Methods The clincial data of 158 patients (158 eyes) with high myopia diagnosed by examinations of best corrected visual acuity and refraction, indirect stereoscopic ophthalmoloscopy, A/Bscan ultrasonography, and OCT, were retrospectively analyzed. The patients were divided into retinoschisis group and nonretinoschisis group according to the results of OCT (whether the patients had macular reinoschisis at the posterior pole). There were 53 patients (55 eyes, 34.8%) in the former group, and 101 patients (103 eyes, 65.2%) in the latter group. The age, sex, diopter, visual acuity, ocular axial length, and incidence of posterior scleral staphyloma, vitreous traction, and retinal detachment of the two groups were compared. Results B-scan ultrasonography showed posterior scleral staphloma in all of the 158 eyes. OCT indicated that in the 55 eyes in the retinnoschisis group, 15 (27.3%) had inner, 53 (96.4%)had outer, and 7 (12.7%)had middle retinoschisis. The inner and outer one could exist independently or in the same eye, while the middle one was always accompanied by the outer retinoschisis. Two or more types of schisis coexisted in 13 eyes (23.6%), single outer retinoschisis was found in 40 eyes (72.7%), and single inner retinoschisis was found in 2 eyes (3.6%). There were 26 eyes(47.3%)were accompanied with retinal detachment, 13 eyes(23.6%) with macular hole, and 12 eyes (21.8%)with vitreous traction. In the 103 eyes in the nonretinoschisis group, 23 eyes (22.3%)had vitreous traction, 19 eyes (18.4%) had macular hole, and 21 eyes (20.4%)had retinal detachment. The differences of age, diopter and ocular axial length, sex, incidence of macular hole and vitreous traction between the two groups were not statistically significant (Pgt;005). The visual acuity in retinoschisis group was much lower than that in the nonretinoschisis group (Plt;005), and the difference of incidence of the retinal detachment between the two groups was significant (Plt;001). 〖WTHZ〗Conclusion 〖WTBZ〗Macular retinoschisis in eyes with high myopia can exist in inner or middle retina, but most of them locate at outer retina.The patients always have poor visual acuity and are often accompanied by other macular lesions such as retinal detachment.
ObjectiveTo characterize proteomic profile in aqueous humor of patients with pathologic myopia (PM) using quantitative proteomic analysis, which may provide new clues to understand the mechanisms and possible treatments of PM.MethodsA cross-sectional study. From January 2019 to August 2019, aqueous humor samples (32 cataract patients) were collected for quantitative proteomic analysis using liquid chromatography tandem mass spectrometry at Tianjin Medical University Eye Hospital. There were 11 males and 21 females. They were 58-76 years old with an average age of 68.41±6.09 years old. Sixteen patients with PM were regarded as PM group, 16 patients without myopia were regarded as the control group. The aqueous humor samples (100-150 μl ) were collected from all patients before cataract surgery. Using protein quantification and non-labeled liquid chromatography tandem mass spectrometry analysis, differentially expressed proteins were obtained. Five different proteins were randomly selected for ELISA verification. The differentially expressed proteins were further analyzed by gene ontology enrichment and Kyoto Encyclopedia of Genes and Genomes, which were validated using ELISA in the other twenty samples of each group.ResultsA total of 583 proteins were identified and 101 proteins were found to be differentially expressed, including 63 up-regulated proteins and 38 down-regulated proteins. ELISA verification results showed that the expression trend of the 5 differentially expressed proteins between the PM group and the control group was consistent with the results of Label-free quantitative proteomics analysis. The main classifications of these differentially expressed proteins were protein-binding activity modulator, defense/immunity protein, protein modifying enzyme, metabolite interconversion enzyme, extracellular matrix protein, transfer/carrier protein and so on. The bioinformatics analysis suggested that PM was closely associated with inflammation and immune interactions, and remodeling of extracellular matrix.ConclusionsCompared with the control group, the protein expression profile of PM patients' aqueous humor specimens has obvious changes. These differences indicate that PM is closely related to inflammation and immune interaction and extracellular matrix remodeling.
Myopic foveoschisis is a disease caused by abnormal vitreoretinal interface status and progressive posterior scleral staphyloma. Its occurrence and development are associated with centripetal traction (posterior vitreous cortex, internal limiting membrane and stiff retinal vessel) and centrifugal traction (increasing axial lengths and posterior scleral staphyloma). Currently vitrectomy is the major option to treat this condition as it can alleviate or eliminate centripetal and centrifugal traction. However as myopic foveoschisis is a life-long progressive degenerative disease, often with abnormalities in retinal pigment epithelium, choroid and sclera; the therapeutic effect of current surgical strategy (vitrectomy or scleral surgery, or combined surgery) is limited and unsatisfactory. A full assessment macular structure, function and related factors before surgery is helpful to predict the anatomical and functional prognosis.
ObjectiveTo observe the clinical efficacy of digital 3D heads-up display viewing system (3D viewing system) and intraoperative OCT (iOCT) in vitrectomy for myopic foveoschisis (MF).MethodsA retrospective, consecutive case series. From October 2018 to May 2019, Nineteen eyes of 19 consecutive patients with MF diagnosed in Xiamen Eye Center of Xiamen University who underwent vitrectomy were included in this study. There were 7 males and 12 females, with the mean age of 54.47±11.38 years. The average axial length was 30.40±2.30 mm, the mean logMAR BCVA was 0.56±0.31, the mean central foveal thickness (CFT) was 317.80±151.9.32 μm, the mean max retinal thickness (maxRT) was 556.7±143.7 μm. All the surgeries performed combined with 3D viewing system with iOCT. The standard 25G pars planar vitrectomy were performed with removing the posterior vitreous and indocyanine green (ICG) staining of internal limiting membrane (ILM) and air-fluid exchange. Thirteen of 19 eyes underwent fovea-sparing ILM peeling and the other 6 eyes not. The average follow-up was 4.2±1.4 months. All the patients were on regular follow-up to document the changes on BCVA, anatomical changes in macula, CFT and maxRT. Paired t test was used to compare BCVA, CFT and maxRT before and after surgery.ResultsThe fine images of macula were clearly shown on the 3D viewing system in all eyes. The electronic green filter enhanced the contrast sensitivity of ICG stained images. Clear images of macula were captured by iOCT in all eyes. The average surgical time was 35.5±8.2 min. On the last follow-up, 16 of 19 eyes with MF resolved. The mean CFT was 178.5±103.5 μm, the maxRT was 341.8±83.8.16 μm, and the mean logMAR BCVA was 0.35±0.22. The differences of CFT, maxRT and logMAR BCVA before and after surgery were statistically significant (t=4.181, 7.154, 5.129; P<0.001). Minimal invisible full thickness macular hole were detected in 2 eyes by iOCT and repaired with auto serum or ILM flap covering. There was no complication associated with the 3D viewing system.Conclusions3D viewing system provides improved contrast and crystal clear macular image stain with ICG in pathological myopia. iOCT can detect the minimal invisible full thickness macular hole during surgery. Both may contribute to improved MF closure rate and BCVA.