The fundus lesions caused by high myopia (HM) often lead to irreversible visual impairment or even blindness. However, the pathogenesis of HM and its fundus lesions is still unclear, the intraocular fluid detection technology of micro samples has brought new prospects for the early diagnosis, monitoring and intervention of the fundus lesions. The molecules associated with HM are various and functionally diverse, intermolecular interactions are staggered and the specific mechanism is complex. With the development of intraocular fluid detection technology, while gradually revealing the role of each molecule in the pathogenesis of HM, it is expected to successfully assist clinical work in the future, providing outpost markers for the progress of myopia and targets for early intervention, or providing a new therapy choice for HM fundus lesions at the molecular level targeting pathogenesis, which is expected to provide more accurate and effective treatment for HM patients in the future.
High myopia is a disease with a high incidence rate and an increasing trend, which could lead to irreversible visual impairment worldwide. Myopia traction maculopathy (MTM), belonging to one of the pathological changes of high myopia, could cause vision damage and even blindness in patients. Recently, a new classification of MTM based on optical coherence tomography can effectively evaluate the condition of patients and is helpful for the diagnosis and treatment of MTM. Moreover, the improvement of internal limiting membrane peeling method and the innovation of macular buckle material provide new ideas for the treatment of MTM based on traditional surgery. New treatment such as vitreal traction release laser surgery, enzymatic vitreolysis and posterior scleral crosslinking have gained increasing attention. By combining these new treatments with artificial intelligence, 3D printing technology and advanced vitrectomy equipment, it is hoped that a safer and more effective treatment for MTM will be found in the future.
ObjectiveTo observe the correlation between posterior myopic retinoschisis(MRS) and posterior scleral staphyma (PS) in pathological myopia (PM), and to preliminarily explore the influencing factors of MRS.MethodsA retrospective case series study. From November 2016 to November 2019, 38 patients with PM with MRS diagnosed in Henan Eye Hospital & Henan Eye Institute from were included in the study. There were 10 males and 28 females; 13 patients were binocular and 25 patients were monocular. The average age was (49±13) years old. BCVA, retinoscopy optometry, frequency domain OCT, three-dimensional magnetic resonance imaging (3D-MRI) examination and axial length (AL) measurement were performed. According to the frequency domain OCT inspection results, MRS was divided into inner splitting, outer splitting and mixed splitting; based on the 3D-MRI scan results, PS was divided into broad macula, narrow macula,discoid, nasal, subdisc and other types. The correlation between MRS and PS was tested by χ2 test or Fisher exact test.ResultsAmong 60 eyes, 58 eyes (96.77%) of MRS combined with PS. Among them, the wide macula, narrow macula, discoid, nasal, subdisc, and other types were 30 (51.72%), 19 (32.75%), 1 (1.72%), 2 (3.48%), 2 (3.48%) and 4 (6.85%) eyes; inner split, outer split, and mixed split were 10 (17.24%), 24 (41.38%), 24 (41.38%) eyes. Of the 19 eyes with narrow macular PS, MRS involved the fovea in 16 eyes; of the 39 eyes with PS of other forms, MRS involved the fovea in 22 eyes. There was a statistically significant difference between the narrow macular type and other types involving foveal eyes (P=0.044). The correlation between MRS involving the fovea and narrow macular PS was moderate (Cramer's V=0.275). The ages of patients with inner split, outer split, and mixed split were 44±12, 56±10, and 44±13 years, respectively. Patients with inner splitting were younger than those with outer splitting, and those with outer splitting were older than those with inner splitting and mixed splitting. The differences were statistically significant (P=0.010, 0.010, 0.060).ConclusionPM with MRS mostly occur in PS-affected eyes, and mainly macular PS (wide macula, narrow macula).
Objective To observe the long-term efficacy and safety of macular buckling (MB) in the treatment of high myopia traction maculopathy. MethodsA retrospective clinical study. From January 2014 to December 2017, 57 eyes of 57 patients with high myopia traction maculopathy who underwent MB treatment at Zhongshan Ophthalmic Center of Sun Yat-sen University were included in the study. Among them, there were 15 males with 15 eyes, average age was 51.80±10.72 years; there were 42 females with 42 eyes, average age was 59.14±11.51 years. There were 21 eyes of 21 cases with highly myopic macular hole with macular detachment (MHMD), and 36 eyes in 36 cases with highly myopic foveoschisis with macular detachment (FSMD), and they were grouped accordingly. All patients underwent best corrected visual acuity (BCVA), optical coherence tomography (OCT), and axial length (AL) measurements. The standard logarithmic visual acuity chart was used for BCVA examination, which was converted into logarithm of the minimum angle of resolution (logMAR) visual acuity during statistics. All patients underwent MB, either on its own or combined with vitrectomy. Patients with significant vitreous macular traction on OCT were treated with combined surgery. One, 3, 6 months and 1, 2, 3, and 4 years after the operation, the same equipment and methods before the operation were used to conduct related examinations, and the long-term efficacy and safety of the two groups of eyes were observed. ResultsBefore surgery, the logMAR BCVA of eyes in MHMD group and FSMD group were 1.35±0.47 and 1.17±0.59, respectively; 4 years after surgery, they were 1.02±0.49 and 0.73±0.55, respectively. The BCVA improved significantly at postoperative 4 years than preoperative in both groups (P=0.039, 0.001). In the eyes with MHMD, the BCVA was found to be significant improved 3 years after surgery (P=0.042). Whereas, in the eyes with FSMD, the BCVA was found to be significantly improved 3 months after surgery (P=0.013). Macular reattachment was achieved in 100% of cases, while macular hole closure rate was achieved in 66.7% in the MHMD group. In the FSMD group, either macular reattachment rate or the foveoschisis resolution rate was 97.2%. After surgery, choroidal neovascularization was observed in 2 eyes, and 3 eyes with intraretinal cyst. ConclusionMB may represent a safe and effective surgical option for the treatment of high myopia maculopathy.
ObjectiveTo observe the clinical efficacy of inverted internal limiting membrane (ILM) flap technique with autologous blood for myopic macular hole.MethodsA retrospective, case-controlled study. Twenty-nine eyes of 29 patients with myopic macular hole who received treatment in Eye Hospital of Wenzhou Medical University from January 2017 to May 2019 were enrolled in this study. There were 5 males (5 eyes) and 24 females (24 eyes), with an average age of 55.28±11.40 years. According to the surgical method, the patients were divided into inverted ILM flap group (12 eyes) and ILM peeling group (17 eyes). All patients underwent BCVA, spectral domain OCT and axial length measurement before surgery. There was no significant difference between the two groups in age, gender, course of disease, hole diameter, BCVA and other baseline data. Follow-up was over 4 months after surgery. The BCVA, macular hole closure and continuity of outer retina after surgery were observed.ResultsIn ILM peeling group, 11 eyes were closed (64.7%) and 6 eyes were not closed at 3 months after surgery. In ILM flap group, 12 eyes were closed (100.0%). The difference of closure rate between two groups was statistically significant (χ2=5.34, P=0.028). The BCVA of inverted ILM flap group was significantly improved at 1, 3 months after surgery compared with preoperative measurements, and the difference was statistically significant (F=3.813, 4.667; P=0.003, 0.001). The BCVA of ILM peeling group was improved at 1 month after surgery, but the difference was not statistically significant (F=1.556, P=0.139). And the BCVA was significantly improved at 3 month after surgery compared with preoperative measurements, and the difference was statistically significant (F=2.453, P=0.026). But there was no significant difference in BCVA between the two groups at 1 and 3 months after surgery (F=0.647, 0.535; P=0.551, 0.612). There was no significant difference in the recovery of outer structure (ELM and EZ continuity) between the two groups at 3 month after surgery (F=0.008, P=0.631).ConclusionsInverted ILM flap technique with autologous blood is a safe and effective method to treat myopic macular hole. The closure rate of the hole can be improved significantly.
Myopic traction maculopathy is a general term for a class of diseases including vitreomacular traction, foveoschisis, and macular hole. Posterior staphyloma plays a vital role in the occurrence and development of myopic traction maculopathy. At present, there is no uniform standard for the timing and method of surgery for myopic traction maculopathy. Based on OCT examination, the classification of traction maculopathy and the degree of visual function damage are important basis for judging the timing of surgery at this stage. Pars plana vitrectomy has been widely used in the treatment of myopic traction maculopathy, but for those with a long axis, the operation is complicated and the effect is not ideal. Macular buckling can effectively alleviate the traction caused by posterior staphyloma, but this surgery has a certain learning curve for clinicians, surgical materials need to be improved and perfected, and more evidence-based medical evidence is needed. We believe that with the continuous clinical understanding of myopic traction maculopathy, surgical treatment will be more rationalized and better treatment results will be achieved.
The reattachment rate, macular hole (MH) closure rate, visual acuity improvement and re-detachment rate of MH retinal detachment (MHRD) of high myopia are not satisfactory owing to long axis oculi, posterior scleral staphyloma and macular atrophy. At present, minimally invasive vitrectomy surgery combined with the internal limiting membrane flap technique has become popular in the treatment of MHRD, as it can promote MH closure, and significantly improve the outcome of MHRD. However if this method can improve the postoperative visual function is still controversial. The advantage of this technique is that the loosened internal limiting membrane is applied to cover the MH surface to form a scaffold structure similar to the basement membrane. It can stimulate Müller cell gliosis more effectively, and promote tissue filling in the MH which results in MH closure. It can also promote retinal reattachment and reduce the likelihood of retinal re-detachment. This technique is expected to be a standard surgical method for the treatment of MHRD of high myopia in the future. The inserted internal limiting membrane flap technique is relatively easy to perform, induces stable flaps by simple procedures, and can be an essential complement procedure of the inverted internal limiting membrane flap technique. In order to reduce the recurrence rate in the future, it is necessary to further define the indications of different surgical methods and the predictive effects of MH healing mode on the success rate and visual function recovery.
Objective To compare the outcome of C3F8 versus silicone oil intraocular tamponade after pars plana vitrectomy (PPV) for the treatment of severe highly myopic macular hole retinal detachment (MHRD). Methods Thirty-two highly myopic MHRD patients (32 eyes) with extreme long axial lengths (ge;29.0 mm), quot;severequot; retina pigment epithelium (RPE) and chorioretinal atrophy, and posterior staphyloma who underwent PPV, were enrolled in this study. The patients were divided into two groups according to different intraocular tamponade agents: C3F8 (group A, 15 eyes) and silicone oil (group B, 17 eyes). The patients with retinal re-detachment after surgery received PPV again. The differences of sex (P=1.000), age (t=0.444, P=0.660), best-corrected visual acuity (t=0.084, P=0.934), diopter (t=0.449, P=0.978), lens state (P=1.000), time of the symptoms (t=0.375, P=0.710) and degree of retinal detachment (chi;2=0.014, P=0.907) between group A and B were not statistically significant. The anatomic reattachment of the retina, macular hole closure, and vision acuity were observed at one week, one, three, six and 12 months after surgery. Results The rates of retinal reattachment and macular hole closure were 60.00% and 13.33 % in group A, 82.35% and 29.41% in group B in the first time of surgery. There was no difference in rates of retinal reattachment and macular hole closure between two groups (P=0.243, 0.402). The rates of retinal reattachment and macular hole closure were 86.67% and 20.00% in group A, 94.12% and 29.41% in group B in the second time of surgery. There was no difference in rates of retinal reattachment and macular hole closure between two groups (P=0.589, 0.691). Twelve months after surgery, the vision acuity improved in five eyes, unchanged in seven eyes , and decreased in three eyes in group A; the vision acuity improved in seven eyes , unchanged in eight eyes , and decreased in two eyes in group B. The differences of vision result was not statistically significant between two groups (chi;2=0.209, P=0.647). Conclusion The rates of retinal reattachment and macular hole closure with silicone oil tamponade was higher than that with C3F8 tamponade in eyes with severe highly myopic MHRD, but the differences are not statistically significant.
ObjectiveTo investigate the effects of form deprivation on the morphology of different types of RGC in mice.MethodsSixty B6.Cg-Tg (Thy1-YFP) HJrs/J transgenic mice were randomly assigned to form-deprived group (n=28) and control group (n=32). The right eyes of mice in the form-deprived group were covered by an occluder for 2 weeks as experimental eyes. The right eyes of mice in the control group were taken as control eyes. Before and 2 weeks after form deprivation, the refraction and ocular biometrics were measured; RGC were stained with Bra3a antibody and counted; the morphology of RGC was reconstructed with Neuroexplore software after immunohistochemical staining. The data was compared among experimental eyes, fellow eyes and control eyes by one-way analysis of variance.ResultsTwo weeks after form deprivation, the axial myopia was observed in the experimental eyes (refraction: F=15.009, P<0.001; vitreous chamber depth: F=3.360, P=0047; ocluar axial length: F=5.011, P=0013). The number of RGC in central retina of the experimental eyes was decreased compared with the fellow eyes and the control eyes (F=4.769, P=0.035). The reconstructed RGC were classified into 4 types according to their dendritic morphology. Form deprivation affected all 4 types of RGC but in a different way. Among them, 3 types of RGC were likely contribute to form vision perception. Form deprivation increased the dendrite branches in these types of ganglion cells. However, form deprivation decreasd dendrite segment numbers in both eyes and the intersection and length insholl analyse type 4 ganglion cells which were morphologically identified as ipRGC.ConclusionForm deprivation distinguishingly affects the morphology of different types of RGC, indicating that form vision and non-form vision play different role in myopia development.
ObjectiveTo evaluate the safety and effectiveness of vitrectomy combined with internal limiting membrane (ILM) tamping on macular hole and retinal detachment (MHRD) in highly myopic eyes.Methods23 patients (23 eyes) were retrospectively reviewed, who were diagnosed as MHRD through examination of the ocular fundus, optic coherence tomography (OCT) and B-mode ultrasonography. There were 5 males (5 eyes) and 18 females (18 eyes). The mean age was (62.35±8.28) years. The mean course of disease was 1.1 months. The logarithm of the minimum angle of resolution (logMAR) best-corrected visual acuity (BCVA) was 2.31±0.72. The mean axial length was (28.66±1.99) mm. All patients underwent 23G micro-incision vitrectomy. After vitreous gel and cortex were gently resected, the ILM around the edges of the macular hole was stained with indocyanine green, and was folded and pushed to fill the macular hole gently. Then silicone oil or C3F8 gas tamponade was applied in 18 eyes and 5 eyes, respectively. The silicone oil was removed after 3 months. The follow-up was 6 months. The BCVA, macular hole closure, retinal anatomical reattachment were retrospectively observed, and were used to evaluate the safety and effectiveness of the surgery.ResultsAt the 6 months after surgery, the logMAR BCVA was improved to 1.13±0.38, the difference was significant (t=15.33, P=0.00). The postoperative macular hole closure rate and retinal anatomical reattachment rate were 100%. There were no ocular or systemic adverse events observed in all patients.ConclusionVitrectomy combined with ILM tamping is an effective and safe treatment for the high myopic eyes with MHRD.